Plants showing a reduced wound-induced surface discoloration

ABSTRACT

The present invention relates a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog. The invention also relates to a modified F5H gene homolog that leads to the reduced wound-induced surface discoloration. The invention further relates to use of the gene in breeding and producing plants that show reduced wound-induced surface discoloration.

RELATED APPLICATIONS AND INCORPORATION BY REFERENCE

This application is a continuation-in-part application of international patent application Serial No. PCT/EP2017/054343 filed 24 Feb. 2017, which published as PCT Publication No. WO 2017/144669 on 31 Aug. 2017, which claims benefit of European patent application Serial No. PCT/EP2016/053895 filed 24 Feb. 2016 and European patent application Serial No. PCT/EP2016/053999 filed 25 Feb. 2016.

The foregoing applications, and all documents cited therein or during their prosecution (“appln cited documents”) and all documents cited or referenced in the appln cited documents, and all documents cited or referenced herein (“herein cited documents”), and all documents cited or referenced in herein cited documents, together with any manufacturer's instructions, descriptions, product specifications, and product sheets for any products mentioned herein or in any document incorporated by reference herein, are hereby incorporated herein by reference, and may be employed in the practice of the invention. More specifically, all referenced documents are incorporated by reference to the same extent as if each individual document was specifically and individually indicated to be incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to a plant that shows reduced wound-induced surface discoloration. The invention further relates to a modified gene homolog that leads to the reduced wound-induced surface discoloration in a plant, to its sequences and the use of these sequences for identifying the presence of the modified gene homolog. The invention also relates to the seeds and progeny of such plants and to propagation material for obtaining such plants.

BACKGROUND OF THE INVENTION

In recent years, consumer convenience as well as the development of new products has contributed to the increasing choice of processed vegetables and fruits available on the market. Ready-to-eat products, i.e. in a cut, washed and packaged form, may include lettuce (Lactuca sativa) and other leafy vegetables such as chicory (Cichorium intybus) and endive (Cichorium endivia), either individually processed or in mixed compositions. One of the most important and frequently encountered problems during harvesting, processing and storage of vegetables is the development of wound-induced surface discoloration visible by a pink discoloration at the wound surface of the plants or parts thereof which gradually turns brown after prolonged storage. Other crop plants such as potato (Solanum tuberosum), onion (Allium cepa), artichocke (Cynara cardunculus var. Scolymus), rice (Oryza sativa), corn (Zea mays), peach (Prunus persica), eggplant (Solanum melongen), celery and celeriac (Apium graveolens), apple (Malus domestica), banana (Musa acuminate), soy (Glycine max), pear (Pyrus×bretschneideri), wheat (Triticum aestivum), radish (Raphanus sativus), cabbage and cauliflower (Brassica oleracea) etc. may also be subject to the wound-induced surface discoloration visible on the plant or parts thereof, such as leaves, whole plant heads, fruits, inflorescences, seeds, curds, stems, tubers, bulbs and roots etc.

Wound-induced surface discoloration or wound-induced discoloration is caused by a strong wound response at and around the wound and leads to a rapid deterioration of the harvested and optionally processed product. Consumers consider discoloration of vegetables and fruits to be unattractive and to compromise the product quality, thus reducing the product's marketability and/or leading to a waste of harvested and optionally processed products.

The wound response is a means of a plant or part thereof to heal the wound and defend itself against pathogens by creating a new insulation barrier. The response is a complex biological response of a plant to physical injury such as cutting or bruising, and implies the activity of numerous proteins. The local response is mainly aimed at closing the wound surface which is effectuated by the local death of cells at or just behind the wound surface. In addition to these visible effects, other responses like increased respiration or ethylene production are known to be induced.

At the biochemical level, studies have shown that wounding can lead to the induction of the phenylpropanoid pathway (PP pathway) which is required for inter alia the production of polyphenols and other compounds important for the plant.

The first step of the PP pathway is the conversion of the amino acid phenylalanine into cinnamic acid by the phenylalanine ammonia-lyase (PAL). PAL is enhanced upon wounding by the induction of gene expression of at least one of its isoforms. This response leads to the formation of polyphenols which are oxidized by the polyphenol oxidase (PPO). PPO is residing in plastids and is released and activated upon wounding. Oxidation of polyphenols lead to the formation of highly reactive quinones, that can react with amino acids or proteins which leads to pink, brown or black discoloration.

In order to reduce the wound-induced surface discoloration in vegetables such as lettuce, many post-harvest and post-processing treatments have been developed and applied. Examples of chemical or physical treatments are the packaging of fresh cut leafy vegetables under a modified atmosphere, the application of edible coatings, heat-shock treatment and the addition of chemicals.

Although these treatments prevent the appearance of the wound-induced discoloration, the harvested and eventually processed product is still susceptible to discoloration if the package is damaged or shortly after opening the package. In addition, the use of chemicals and the need for specialized equipment for such treatments significantly increases costs. For these reasons, a more viable genetically-based solution which works to reduce wound-induced surface discoloration in plants is preferred.

Citation or identification of any document in this application is not an admission that such document is available as prior art to the present invention.

SUMMARY OF THE INVENTION

In the research leading to the present invention, it was surprisingly found that modifications to a F5H gene homolog in plants lead to a reduction of wound-induced surface discoloration, as compared to plants or parts thereof not which may comprise such modifications in their corresponding wild type F5H gene homologs. The F5H gene homologs code for Ferulate 5-hydroxylase (F5H) protein homologs. In Arabidopsis thaliana two F5H gene homologs are described and called F5H1 and F5H2. The F5H enzyme is part of a PP pathway where it is responsible for the hydroxylation of coniferaldehyde and coniferyl alcohol. The F5H protein belongs to a new family of plant cytochrome P450-dependent mono-oxygenase called CYP84. However, the implication of F5H in the wound-induced surface discoloration has not yet been described.

It is an object of the present invention to provide a plant that shows reduced wound-induced surface discoloration.

The present invention thus provides a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog.

Accordingly, it is an object of the invention not to encompass within the invention any previously known product, process of making the product, or method of using the product such that Applicants reserve the right and hereby disclose a disclaimer of any previously known product, process, or method. It is further noted that the invention does not intend to encompass within the scope of the invention any product, process, or making of the product or method of using the product, which does not meet the written description and enablement requirements of the USPTO (35 U.S.C. § 112, first paragraph) or the EPO (Article 83 of the EPC), such that Applicants reserve the right and hereby disclose a disclaimer of any previously described product, process of making the product, or method of using the product. It may be advantageous in the practice of the invention to be in compliance with Art. 53(c) EPC and Rule 28(b) and (c) EPC. All rights to explicitly disclaim any embodiments that are the subject of any granted patent(s) of applicant in the lineage of this application or in any other lineage or in any prior filed application of any third party is explicitly reserved. Nothing herein is to be construed as a promise.

It is noted that in this disclosure and particularly in the claims and/or paragraphs, terms such as “comprises”, “comprised”, “comprising” and the like can have the meaning attributed to it in U.S. Patent law; e.g., they can mean “includes”, “included”, “including”, and the like; and that terms such as “consisting essentially of” and “consists essentially of” have the meaning ascribed to them in U.S. Patent law, e.g., they allow for elements not explicitly recited, but exclude elements that are found in the prior art or that affect a basic or novel characteristic of the invention.

These and other embodiments are disclosed or are obvious from and encompassed by, the following Detailed Description.

BRIEF DESCRIPTION OF THE DRAWINGS

The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.

The following detailed description, given by way of example, but not intended to limit the invention solely to the specific embodiments described, may best be understood in conjunction with the accompanying drawings.

In the examples reference is made to the following figures:

FIG. 1: Leaf discs of the phenotypic test described in Example 2 at 3 days of incubation of Lactuca sativa samples of the WT and different mutants. Line 1 and line 8 are leaf disc samples taken from wild type lettuce plants, line 2 and line 9 are leaf disc samples taken from lettuce plants which may comprise mutation 1, line 3 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 2, line 4 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 3, line 5 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 4, line 6 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 5 and line 7 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 6. The mutations are represented in Table 3.

FIG. 2: Leaf discs of the phenotypic test described in Example 2 at 5 days of incubation of Lactuca sativa samples of the WT and different mutants. Line 1 and line 8 are leaf disc samples taken from wild type lettuce plants, line 2 and line 9 are leaf disc samples taken from lettuce plants which may comprise mutation 1, line 3 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 2, line 4 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 3, line 5 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 4, line 6 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 5 and line 7 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 6. The mutations are represented in Table 3.

FIG. 3: Leaf discs of the phenotypic test described in Example 2 at 10 days of incubation of Lactuca sativa samples of the WT and different mutants. Line 1 and line 8 are leaf disc samples taken from wild type lettuce plants, line 2 and line 9 are leaf disc samples taken from lettuce plants which may comprise mutation 1, line 3 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 2, line 4 are leaf disc samples taken from lettuce plants which may comprise mutation 1 and mutation 3, line 5 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 4, line 6 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 5 and line 7 are leaf disc samples taken from lettuce plants which may comprise mutation and mutation 6. The mutations are represented in Table 3.

FIG. 4: Alignment of the ortholog proteins having the wild type sequences with the SEQ ID numbers listed in Table 2 (CLUSTAL multiple sequence alignment by MUSCLE (3.8)).

The motifs of Table 1 are highlighted in the sequences.

The following symbols are used below the alignment:

*—all residues in that column are identical

:—conserved substitutions have been observed

.—semi-conserved substitutions have been observed

--no match (space)

FIG. 5: Example of a scale used for the evaluation of wound-induced surface discoloration on leaf discs represented with a description of each score and a figure of a leaf disc having the given score.

FIG. 6: Leaf discs of a phenotypic test of the segregation analysis of the F2 lines of lettuce plants which may comprise mutation 1 and mutation 3, as described in Example 7. The pictures represent the leaf discs after 1, 2, 3, 4 and 7 days of incubation after sampling.

FIG. 7-1-7-3: Phenotypic analysis of whole lettuce heads which may comprise mutation 1 and mutation 3, as described in Example 8.

DEPOSITS

Seeds of lettuce plants (Lactuca sativa) of the invention that may comprise a modified F5H gene homolog which lead to reduction of wound-induced surface discoloration, were deposited with the NCIMB Ltd, Ferguson Building, Craibstone Estate, Bucksburn, Aberdeen AB21 9YA, UK on Feb. 19, 2016 under deposit accession the NCIMB Ltd, Ferguson Building, Craibstone Estate, Bucksburn, Aberdeen AB21 9YA, UK on Feb. 19, 2016.

The deposited seeds do not meet the DUS criteria which are required for obtaining plant variety protection, and can therefore not be considered to be plant varieties.

The Deposits with the NCIMB Ltd, Ferguson Building, Craibstone Estate, Bucksburn, Aberdeen AB21 9YA, UK on Feb. 19, 2016, under deposit accession the NCIMB Ltd, Ferguson Building, Craibstone Estate, Bucksburn, Aberdeen AB21 9YA, UK on Feb. 19, 2016 were made pursuant to the terms of the Budapest Treaty. Upon issuance of a patent, all restrictions upon the deposit will be removed, and the deposit is intended to meet the requirements of 37 CFR §§ 1.801-1.809. The deposit will be irrevocably and without restriction or condition released to the public upon the issuance of a patent and for the enforceable life of the patent. The deposit will be maintained in the depository for a period of 30 years, or 5 years after the last request, or for the effective life of the patent, whichever is longer, and will be replaced if necessary during that period.

DETAILED DESCRIPTION OF THE INVENTION

The term “reduced” is always measured in relation to the wound-induced surface discoloration of a control plant or part thereof that has no such modifications to its F5H gene homologs and is therefore a wild type plant which may comprise wild type F5H gene homologs and does not show reduced wound-induced surface discoloration. As used herein, a plant showing a “reduced wound-induced surface discoloration” or a “reduction of wound-induced surface discoloration” is a plant having a reduced wound-induced surface discoloration as compared to the wound induced surface discoloration of a wild type plant. Therefore, an improvement of the reduced wound-induced surface discoloration is defined by a delayed appearance and/or reduced intensity of the discoloration as compared to a plant not which may comprise a modified F5H gene homolog. A reduced intensity of discoloration is visible by a less intense discoloration of the wound surface and/or the discolored surface is smaller as compared to the discoloration and surface of the wound induced surface discoloration of a wild type plant. Ultimately, the wound-induced discoloration is completely absent. A delayed appearance of the discoloration means that the onset of discoloration occurs later in time. The plant thus maintains its fresh appearance longer, which is in fact an increase of shelf life.

The present invention further provides the sequences of the modified F5H gene homologs in order to identify plants which may comprise said modifications that lead to the trait of the invention.

The number of F5H gene homologs within one specific species differs among different plant species. According to the definition of gene homolog described in this application, it was found, that the Lactuca sativa plant genome may comprise two F5H gene homologs. One homolog called herein F5H1, is located on chromosome 4 and has the wild type DNA coding sequence (CDS) represented in SEQ ID No: 115 and encodes the wild type F5H1 protein having SEQ ID No: 1. The other lettuce homolog herein called F5H2, is located on chromosome 3 and has the wild type DNA coding sequence represented in SEQ ID No: 116 and encodes the wild type F5H2 protein having SEQ ID No: 2.

It was also found that the genomes of artichocke (Cynara cardunculus var. Scolymus), rice (Oryza sativa), corn (Zea mays), peach (Prunus persica) and eggplant (Solanum melongena) also may comprise two F5H gene homologs the wild type SEQ ID numbers of which are listed in Table 2. The species chicory (Cichorium intybus), endive (Cichorium endivia), celery and celeriac (Apium graveolens) and apple (Malus domestica) may comprise three F5H gene homologs the wild type SEQ ID numbers of which are listed in Table 2. The genome of banana (Musa acuminata) may comprise four F5H homologs the wild type SEQ ID numbers of which are listed in Table 2. The genomes of soy (Glycine max), pear (Pyrus×bretschneideri), wheat (Triticum aestivum), radish (Raphanus sativus) and cabbage and cauliflower (Brassica oleracea) may comprise five F5H homologs the wild type SEQ ID numbers of which are listed in Table 2, whereas the genomes of potato (Solanum tuberosum) and onion (Allium cepa) may comprise one F5H gene homolog in their genomes, the homolog the wild type SEQ ID numbers of which are listed in Table 2.

In a preferred embodiment, the invention relates to plants belonging to the genus Lactuca. In particular, the invention relates to a Lactuca sativa plant which may comprise two F5H gene homologs that are modified as compared to the nucleotide sequence of the wild type genes (SEQ ID No: 115 and 116), encoding the wild type proteins (SEQ ID No: 1 and 2). Other plants which may comprise a modified F5H gene homolog in their genome such as Solanum tuberosum, Allium cepa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, are also part of the invention.

In another embodiment, the invention relates to a modified F5H gene homolog of a plant belonging to the species Solanum tuberosum, Allium cepa, Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus or Brassica oleracea, wherein the modified F5H gene homolog may comprise at least one modification as compared to its wild type sequence and wherein the modification leads to reduced wound-induced surface discoloration to the plant. It is not intended to claim a modified F5H gene of Arabidopsis thaliana or the sequence of the NCBI database with the accession no. XP_011028697 (Predicted: cytochrome P450 84A1-like [Populus euphratica]), in this application.

In one embodiment, the invention relates to a modified F5H1 gene homolog having the sequence represented by SEQ ID No: 174, that leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H1 gene homolog.

In one embodiment, the invention relates to a modified F5H1 gene homolog having the sequence represented by SEQ ID No: 174 and a modified F5H2 gene homolog having the sequence represented by SEQ ID No: 175, 176, 177, 178 or 179, leading to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homologs.

The invention relates to a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog.

In one embodiment the invention relates to a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog and wherein the wild type F5H gene sequence is represented by any one of SEQ ID Nos: 58 to 114.

In a particular embodiment the invention relates to a plant which may comprise a modified F5H gene homolog of the invention, wherein the plant is selected from the group consisting of Solanum tuberosum, Allium cepa, Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2. It is not intended to claim a Arabidopsis thaliana plant which may comprise a modified F5H gene, in particular the one disclosed in the publication of Meyer et al. in National Academy of Sciences (1996) or in Huang et al. in Planta; an international journal of plant biology (2009), or a plant which may comprise the sequence of the NCBI database with the accession no. XP_011028697 (Predicted: cytochrome P450 84A1-like [Populus euphratica]), in this application.

In another embodiment the invention relates to a plant which may comprise two modified F5H gene homologs, wherein the presence of the modified F5H gene homologs in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homologs.

In a particular embodiment, the invention relates to a plant which may comprise two modified F5H gene homologs of the invention, wherein the plant is selected from the group consisting of Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa Japonica, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

In another embodiment the invention relates to a plant which may comprise three modified F5H genes homolog, wherein the presence of the modified F5H gene homologs in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homologs.

In a particular embodiment, the invention relates to a plant which may comprise three modified F5H gene homologs of the invention, wherein the plant is selected from the group consisting of Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

In another embodiment the invention relates to a plant which may comprise four modified F5H gene homologs, wherein the presence of the modified F5H gene homologs in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homologs.

In a particular embodiment, the invention relates to a plant which may comprise four modified F5H gene homologs of the invention, wherein the plant is selected from the group consisting of Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

In another embodiment the invention relates to a plant which may comprise five or more modified F5H gene homologs, wherein the presence of the modified F5H gene homologs in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homologs.

In a particular embodiment, the invention relates to a plant which may comprise five or more modified F5H gene homologs of the invention, wherein the plant is selected from the group consisting of Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

The invention relates to edible plants such as vegetables, fruits and cereals which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog and wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog.

A “plant of the invention” as used herein, is a plant that may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog and wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog. A plant of the invention is an edible plant such as a vegetable, fruit or cereal. Preferably the plant of the invention is selected from the group consisting of Solanum tuberosum, Allium cepa, Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2. Even more preferably the plant of the invention is a lettuce (Lactuca sativa) plant.

The relationship between genes is defined as homologous. In this application “homologous genes” refers to two related genes originating from a common ancestral gene. Homologous sequences are termed “homologs” and this term may be applied to both genes and proteins. The terms “homologous” or “homologs” may be used interchangeably. Homologous genes encode homologous proteins. According to our definition, the wild type sequences of the F5H protein homologs to which the invention relates are listed in Table 2. Moreover, all the F5H protein homologs that were identified during the research leading to the invention, have the five motifs the consensus sequence of which is represented in Table 1 and provided by MAST (Motif Alignment & Search Tool) and MEME (Multiple Em for Motif Elicitation) in their amino acid sequences with a certain degree of variation.

Preferably the F5H protein homologs of the invention may comprise the motifs represented in Table 1 with an identity percentage of at least 54%, more preferably with an identity percentage of at least 60%, even more preferably with an identity percentage of at least 65%, even more preferably with an identity percentage of at least 70%, even more preferably with an identity percentage of at least 75%, even more preferably with an identity percentage of at least 80%, even more preferably with an identity percentage of at least 85%, even more preferably with an identity percentage of at least 90%, even more preferably with an identity percentage of at least 95% and most preferably with an identity percentage of 100%. The consensus sequences of the five motifs are listed in the Table 1 and are highlighted in the alignment of the F5H protein orthologs in FIG. 4.

TABLE 1 Motifs present in all the F5H protein homolog sequences Number Motif 1 IFSNRPATIAISYLTYDRADMAFAHYGPFWRQMRKLC SEQ ID VMKLFSRKRAESW No: 169 2 DFKGSNFEFIPFGSGRRSCPGMQLGLYALEMAVAHLL SEQ ID HCFTWELPDGMKP No: 170 3 TRDNIKAIIMDVMFGGTETVASAIEWAMTELMHSPED SEQ ID LKRVQQELADVVG No: 171 4 YLKCCIKETLRLHPPIPLLLHETAEDCEVAGYHIPKG SEQ ID SRVMINAWAIGRD No: 172 5 PYPPGPKGWPIIGNMLMMDQLTHRGLAKLAKQYGGIC SEQ ID HLRMGFLHMVAVS No: 173

“Orthologous genes” are homologous genes present in different species and originated from a common ancestral gene and separated by a speciation event. The terms “orthologous genes” or “orthologs” may be used interchangeably. The present invention thus provides for modifications to F5H gene homologs within a species and F5H gene orthologs of different species, all leading to a reduced wound-induced surface discoloration in said species. The SEQ ID numbers of the wild type sequences of the F5H protein and gene orthologs to which the invention relates are listed in Table 2.

In this application a “gene” may comprise exonic sequences and regulatory sequences such as a promoter sequence, UTR and polyadenylation signals and if present it also may comprise intronic sequences. Modification to a F5H gene homolog creates a “modified gene homolog” by at least one change in the nucleotide sequence of the gene. The terms “modification” and “mutation” may be used interchangeably. Generally, modifications change the expression of the gene and/or the activity of the protein encoded by the gene that may comprise the modification. Modifications to the gene sequence may inhibit gene transcription such that the expression of the modified gene is prevented or reduced or may lead to unstable mRNA. Modifications may also be changes to the sequence of the F5H gene that lead to a reduced level, reduced activity or a complete absence of the encoded protein activity. In some cases, modifications can also lead to an overexpression of the protein that may be responsible for the modified phenotype. A non-limitative list of examples of modifications and techniques in order to modify the genes is described in this application.

As used herein, “wild type” or “WT” refers to the form of an organism as it would occur in nature, in this case a plant not showing a reduction in wound-induced surface discoloration.

As used herein, a wild type gene or gene homolog refers to an unmodified F5H gene as it would occur in a plant not showing a reduction in wound-induced surface discoloration. The wild type plant is used as control plant that does not carry a modified F5H gene homolog and therefore does not show the reduced wound-induced surface discoloration. To be comparable, the plant of the invention that may comprise a modified F5H gene homolog and the wild type plant should be selected from the same type, preferably the same variety, at the same age and be grown under the same conditions.

As used herein, the term “a F5H gene” or “a modified F5H gene” means one or more modified F5H genes. A “plant which may comprise a modified F5H gene homolog” may comprise one or more modified F5H gene homologs.

In this application, the word “trait” refers to the phenotype of the plant. “Trait of the invention”, “trait”, or “phenotypic trait”, “phenotype”, “characteristic” may be used interchangeably. The trait of the invention as used herein is the reduced wound-induced surface discoloration as a result of the presence of a modified F5H gene homolog and its corresponding F5H protein.

As used herein the “modified F5H gene homolog of the invention” refers to a F5H homolog that may comprise any modification that leads in a plant to reduced wound-induced surface discoloration. Preferably the modified F5H gene homolog of the invention may comprise a modification represented in Table 3. “Modified F5H gene homolog of the invention”, “gene of the invention”, “F5H gene of the invention”, “F5H gene homolog of the invention” be used interchangeably.

The invention relates to a plant of the invention, wherein reduction of the endogenous level of the F5H1 protein is due to a premature stop codon in the wild-type F5H1 sequences listed in Table 2.

The invention relates to a method for producing a plant exhibition reduced wound-induced surface discoloration, which may comprise reducing the endogenous level of F5H1 protein in the plant.

The invention further relates to a method for producing a plant exhibition reduced wound-induced surface discoloration, which may comprise reducing the endogenous level of F5H1 protein in the plant, wherein the mutation is effected by CRISPR, by a chemical agent, radiation, or a combination thereof.

The modification of a F5H gene can be introduced by means of mutagenesis. Several chemical or physical treatments are known to the person skilled in the art which can be used to induce genetic mutations in plant species like lettuce. Mutagenesis may comprise the random introduction of at least one modification by means of one or more chemical compounds, such as ethyl methanesulphonate (EMS), nitrosomethylurea, hydroxylamine, proflavine, N-methyl-N-nitrosoguanidine, N-ethyl-N-nitrosourea, N-methyl-N-nitro-nitrosoguani dine, diethyl sulphate, ethylene imine, sodium azide, formaline, urethane, phenol and ethylene oxide, and/or by physical means, such as UV-irradiation, fast-neutron exposure, X-rays, gamma irradiation, and/or by insertion of genetic elements, such as transposons, T-DNA, retroviral elements. Mutagenesis also may comprise the more specific, targeted introduction of at least one modification by means of homologous recombination, oligonucleotide-based mutation induction, zinc-finger nucleases (ZFNs), transcription activator-like effector nucleases (TALENs) or Clustered Regularly Interspaced Short Palindromic Repeat (CRISPR) systems.

Seeds of the plant to be modified may be treated with a solution containing different concentrations of a mutagen like EMS. EMS alkylates primarily Guanine (G) residues of a DNA strand, which during DNA replication causes pairing with Thymine (T) instead of Cytosine (C). Therefore, GC base pairs change to AT base pairs at a frequency which is determined by the effective dose of EMS and the activity of the mismatch repair system of the plant. The effective dose of EMS depends on the concentration used, the seed size and other physical properties and the time of incubation of the seeds in the EMS solution. The seeds, which have been treated with EMS are typically called M1 seeds. As a consequence of the treatment, the tissues of the M1 seeds contain random point mutations in the genomes of their cells and those present in the subpopulation of cells, which will form the germline tissue (germinal cells) will be transferred to the next generation, which is called M2. Mutations or combinations thereof which are haplo-insufficient thereby causing sterility or which induce embryo lethality will not be transferred to the M2 generation. It should be noted that although most EMS induced mutations and the resulting trait are recessive, there is a possibility that dominant mutations leading to a semi-dominant or dominant trait can occur.

In one embodiment the invention relates to a plant which may comprise a modified F5H gene homolog, wherein said gene homolog is mutated as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog.

In a particular embodiment the invention relates to a plant which may comprise a modified F5H gene homolog, wherein said gene homolog may comprise a man-made mutation as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog.

In one embodiment, the invention relates to a plant or plant part which may comprise a modified F5H1 gene homolog of the invention, wherein the modification leads to a reduction or absence of the protein expression of the F5H1 protein homolog as compared to the expression of the protein produced by the corresponding wild type F5H1 gene homolog.

In a particular embodiment, the invention relates to a Lactuca sativa plant or plant part which may comprise a modified F5H1 gene homolog, wherein the modification leads to a reduction or absence of the protein expression of the F5H1 protein homolog as compared to the expression of the protein produced by the corresponding wild type F5H1 gene homolog.

In one embodiment, the invention relates to a plant or plant part which may comprise a modified F5H2 gene homolog of the invention, wherein the modification leads to a reduction or absence or increase of the protein expression of the F5H2 protein homolog as compared to the expression of the protein produced by the corresponding wild type F5H2 gene homolog.

In a particular embodiment, the invention relates to a Lactuca sativa plant or plant part which may comprise a modified F5H2 gene homolog, wherein the modification leads to a reduction or absence or increase of the protein expression of the F5H2 protein homolog as compared to the expression of the protein produced by the corresponding wild type F5H2 gene homolog.

The invention further relates to a method for producing a plant of the invention, which may comprise reducing the endogenous level of F5H1 protein in the plant, wherein reducing the endogenous level of F5H1 protein in the plant is accomplished by reducing the expression of a F5H1 gene homolog of the plant by gene silencing or RNAi.

The invention also relates to a plant exhibiting reduced wound-induced surface discoloration and showing a reduced F5H1 expression, wherein the reduction or absence is caused by a method described in this application.

When the expression of a modified F5H gene is absent or reduced in the context of this invention, this means that the gene expression leading to the synthesis of a functional protein is prevented and thus absent or that the expression of the modified F5H gene is less than the expression of the wild type F5H gene leading to a lower level of the protein. The said prevention or reduction of gene expression is herein directly or indirectly responsible for the trait of reduced wound-induced surface discoloration.

Gene expression may also be prevented or reduced by preventing the transcription of the gene with for example RNA oligonucleotides or DNA oligonucleotides, or preferably by the expression of a negatively acting transcription factor acting on a F5H gene promoter. Other examples of methods to prevent or reduce the gene expression are the destabilization of the F5H mRNA or transcript, preferably by means of nucleic acid molecules that are complementary to the F5H mRNA or transcript selected from the group consisting of antisense RNA, RNAi molecules, Virus-Induced Gene Silencing (VIGS) molecules, co-suppressor molecules, RNA oligonucleotides or DNA oligonucleotides. Such methods for destabilizing mRNA or transcripts are well known to the person skilled in the art.

Examples of modifications leading to the reduction or absence of the F5H activity are modifications leading to premature stop codons, frame shifts or amino acid substitutions in the encoded protein. The said reduction or absence of the F5H protein activity is herein directly or indirectly responsible for the trait of reduced wound-induced surface discoloration. A reduced activity of the F5H protein may occur for example by introducing one or more mutations into the coding sequence of a F5H gene. Mutation(s) to the F5H gene may affect the biological function of the encoded protein, as compared to F5H protein encoded by a wild type F5H gene where no such mutation(s) is present.

In one embodiment, the invention relates to a plant showing reduced wound-induced surface discoloration which may comprise a modified F5H gene homolog, wherein the modification leads to a reduction or absence of the protein activity of the F5H protein homolog as compared to the activity of the protein produced by the corresponding wild type F5H gene homolog.

In one particular embodiment, the invention relates to a plant showing reduced wound-induced surface discoloration which may comprise a modified F5H1 gene homolog, wherein the modification leads to a reduction or absence of the protein activity of the F5H1 protein homolog as compared to the activity of the protein produced by the corresponding wild type F5H1 gene homolog.

In one embodiment, the invention relates to a plant showing reduced wound-induced surface discoloration which may comprise a modified F5H2 gene homolog, wherein the modification leads to a reduction or absence of the protein activity of the F5H2 protein homolog as compared to the activity of the protein produced by the corresponding wild type F5H2 gene homolog.

The plants of the invention were created by using the mutagenic agent EMS, as described in Example 1. Plants grown from seeds treated one time with the mutagenic agent and selected for their ability to show reduced wound-induced surface discoloration, may comprise at least one mutation in one F5H gene homolog of their genome. In order to introduce modifications to the other F5H gene homologs of the plant, the seeds already carrying one or more modified F5H gene homologs may be treated for additional rounds with the mutagenic agent and selected after each round of treatment with the mutagenic agent for their ability to show reduced wound-induced surface discoloration. For example, a Lactuca sativa plant having two F5H gene homologs in their genome was treated two times with the mutagenic agent EMS in order to introduce a modification in the two F5H gene homologs of this plant.

Modifications to the gene may be recessive, dominant or intermediate. The terms “intermediate and “semi-dominant” may be used interchangeably. In case of a recessive trait, the modification of the gene needs to be present in homozygous state for the trait to be completely visible. Some of the modifications described herein are recessive and thus only confer the reduced wound-induced surface discoloration if both alleles of the gene have the modification. Modifications that are dominant or intermediate can also be visible in heterozygous state. The heterozygous phenotype of an intermediate trait lies between the phenotypes of the homozygous dominant and the homozygous recessive genotypes. These types of modifications are also part of the invention.

Modification in the F5H1 or F5H2 gene homolog may be present in a heterozygous or in a homozygous state. Preferably the modification in the F5H1 gene homolog is present in a homozygous state. The genotype of the plant can be confirmed by using molecular markers. Preferably, the genotype of the plants is confirmed by using the molecular markers described in Example 3.

In one embodiment, the invention relates to a plant which may comprise a F5H gene homolog that may comprise a modification as compared to the corresponding wild type sequence, wherein the modification results in a different phenotype displaying reduced wound-induced surface discoloration.

In one embodiment, the invention relates to a plant which may comprise a F5H gene homolog that may comprise a modification as compared to the corresponding wild type sequence, wherein the modification results in a different phenotype displaying reduced wound-induced surface discoloration as compared to a plant not which may comprise the modified F5H gene homolog.

In the context of this application, the reduced wound-induced discoloration is preferably caused by a modification that is present in the genome of lettuce seeds which were deposited with the NCIMB under accession number NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551. The mutations are described in Table 3.

Seed of seed lot 16E.607_B01 was deposited with the NCIMB under accession number NCIMB 45546. The deposited seeds comprise mutation 1 in the F5H1 gene homolog.

Seed of seed lot 16E.607_B02 was deposited with the NCIMB under accession number NCIMB 42547. The deposited seeds comprise mutation 1 in the F5H1 gene homolog and mutation 2 in the F5H2 gene homolog.

Seed of seed lot 16E.607_B03 was deposited with the NCIMB under accession number NCIMB 42548. The deposited seeds comprise mutation 1 in the F5H1 gene homolog and mutation 3 in the F5H2 gene homolog.

Seed of seed lot 16E.607_B04 was deposited with the NCIMB under accession number NCIMB 42549. The deposited seeds comprise mutation 1 in the F5H1 gene homolog and mutation 4 in the F5H2 gene homolog.

Seed of seed lot 16E.607_B05 was deposited with the NCIMB under accession number NCIMB 42550. The deposited seeds comprise mutation 1 in the F5H1 gene homolog and mutation 5 in the F5H2 gene homolog.

Seed of seed lot 16E.607_B06 was deposited with the NCIMB under accession number NCIMB 42551. The deposited seeds comprise mutation 1 in the F5H1 gene homolog and mutation 6 in the F5H2 gene homolog.

The lettuce F5H1 gene homolog which may comprise mutation 1 is represented by SEQ ID No: 174.

The lettuce F5H2 gene homolog which may comprise mutation 2 is represented by SEQ ID No: 175.

The lettuce F5H2 gene homolog which may comprise mutation 3 is represented by SEQ ID No: 176.

The lettuce F5H2 gene homolog which may comprise mutation 4 is represented by SEQ ID No: 177.

The lettuce F5H2 gene homolog which may comprise mutation 5 is represented by SEQ ID No: 178.

The lettuce F5H2 gene homolog which may comprise mutation 6 is represented by SEQ ID No: 179.

Modifications to a gene may lead to premature stop codons, frame shifts, amino acid substitutions or splice variants in the corresponding protein sequence. The modifications in the protein sequence are the results of substitution, deletions and changes of base pairs in the DNA sequences coding for proteins.

When the modification to the DNA sequence leads to a premature stop codon, the transcription results in a truncated version of the encoded protein. The modification may occur in a region of the protein sequence that contains one or more domains or active sites essential to perform its function and/or to interact with its substrate or other proteins and/or to fold properly into a functional protein.

When the modification to the DNA sequence leads to a frame shift mutation, the protein translation will result in an entirely different amino acid sequence as the WT sequence and often results in a premature stop codon. The translated protein will usually have a different biological function than the WT protein. These modifications are due to the insertion or deletion of a number of base pairs that is not a multiple of three, leading to the shift of the triplet codon encoding the individual amino acid of the protein, relative to the original open-reading frame changing thereby the amino acid sequence of the protein. If the insertion or deletion is a multiple of three it may also lead to a different amino acid sequence as the wild type sequence.

The modification of one or more base pairs in the coding sequence of a DNA sequence can lead to an amino acid change in the encoded protein sequence. Due to the redundancy of the genetic code some mutations lead to the same amino acid, these mutations are called “silent mutations”. Moreover, some amino acid changes are “conservative”, i.e. they lead to the replacement of one amino acid by another amino acid with comparable properties, for example similarity in polarity, charge, solubility, hydrophobicity, hydrophilicity or the amphipathic nature of the residues, such that the mutation is unlikely to dramatically influence function of the mature protein and/or change its folding. Other amino acid changes are non-silent, non-conservative amino acid changes and are replacements of an amino acid by another amino acid with different chemical properties in domains that play a role in substrate-recognition, the active site of enzymes, interaction domains or in major structural domains and such amino acid changes may partly or completely destroy the functionality of the encoded protein, without necessarily affecting the expression level of the encoding gene. These types of mutations may lead to detrimental stability, functionality and/or structural effects of the encoded protein. Non-silent and non-conservative amino acid changes can also lead to an over-expression of the encoded protein.

Mutations in the promoter sequence of the F5H gene may also perturb the biological function of the encoded F5H protein, as such mutations may lead to a complete lack of transcription of the gene (e.g. subsequently resulting in a complete absence of the F5H protein), or to a significantly decreased and biologically inadequate level of transcription (e.g. subsequently resulting in a reduced level of the F5H protein) or to an overexpression of the F5H protein (e.g. subsequently resulting in a higher level of the F5H protein).

In the present invention gene expression analysis was performed by measuring the RNA of the F5H1 gene homolog and the F5H2 gene homolog. The analysis showed that the expression of F5H1 and F5H2 is induced upon wounding. The expression of F5H1 seems to start earlier than the expression of F5H2 and the expression of F5H1 seems to be reduced in plants having mutation 1 and optionally a mutation in the F5H2 gene homolog such as mutation 3 or mutation 6.

The invention relates to a plant that may comprise a modified F5H gene homolog wherein said gene homolog may comprise a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in a plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not which may comprise the modified F5H gene homolog. The invention relates to a plant which may comprise a modified F5H gene of the invention, wherein the modification leads to a premature stop codon.

The invention relates to a Lactuca sativa plant which may comprise a first modified F5H gene homolog called F5H1, the wild type of which has SEQ ID No. 115, and optionally a second modified F5H gene homolog called F5H2, the wild type of which has SEQ ID No. 116.

The invention also relates to a Lactuca sativa plant, wherein the modified F5H1 gene homolog is homozygously present and the modified F5H2 gene homolog is either heterozygously or homozygously present.

The invention further relates to a Lactuca sativa plant, wherein the modified F5H1 gene may comprise a premature stop codon.

The invention further relates to a Lactuca sativa plant, wherein the modified F5H1 gene may comprise a premature stop codon that is caused by a mutation C>T at position 370 of SEQ ID No: 115.

In one embodiment, the invention relates to another plant of the invention listed in FIG. 4 and the premature stop codon is caused by a mutation at a position that corresponds to position 370 of SEQ ID No: 115 in Lactuca sativa.

The invention further relates to a Lactuca sativa plant, which may comprise a first modified F5H gene homolog called F5H1, the wild type of which has SEQ ID No. 115, and optionally a second modified F5H gene homolog called F5H2, the wild type of which has SEQ ID No. 116, wherein the modified F5H2 gene encodes a protein having one or more amino acid substitutions.

The invention further relates to a Lactuca sativa plant, which may comprise a first modified F5H gene homolog called F5H1, the wild type of which has SEQ ID No. 115, and optionally a second modified F5H gene homolog called F5H2, the wild type of which has SEQ ID No. 116, wherein the modified F5H2 gene encodes a protein having an amino acid substitution of Threonine to Isoleucine at position 154 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Serine to Phenylalanine at position 308 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded F5H2 protein of SEQ ID No: 2.

The invention further relates to a Lactuca sativa plant, which may comprise a first modified F5H gene homolog called F5H1, the wild type of which has SEQ ID No. 115, and optionally a second modified F5H gene homolog called F5H2, the wild type of which has SEQ ID No. 116, wherein the amino acid substitution of Threonine to Isoleucine at position 154 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 461 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 494 of SEQ ID No: 116, the amino acid substitution of Serine to Phenylalanine at position 308 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 923 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1301 of SEQ ID No: 116 and the amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1307 of SEQ ID No: 116.

In one embodiment the invention relates to another plant of the invention listed in FIG. 4 and the amino acid substitution is at a position that corresponds to the position in Lactuca sativa.

The invention also relates to a Lactuca sativa plant, which may comprise a modified F5H1 gene, which gene may comprise a premature stop codon and a F5H2 gene which may comprise an amino acid substitution.

The invention relates to a Lactuca sativa plant, which may comprise a modified F5H1 gene, which gene may comprise a premature stop codon and a F5H2 gene which may comprise an amino acid substitution, wherein the premature stop codon in the F5H1 gene is caused by a mutation C>T at position 370 of SEQ ID No: 115 and the amino acid substitution in the F5H2 gene selected from Threonine to Isoleucine at position 154 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 461 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 494 of SEQ ID No: 116, the amino acid substitution of Serine to Phenylalanine at position 308 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 923 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1301 of SEQ ID No: 116 or the amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1307 of SEQ ID No: 116.

In one embodiment, the invention relates to a Lactuca sativa plant of the invention, which may comprise a modified F5H1 gene, which gene may comprise a premature stop codon and a F5H2 gene which may comprise an amino acid substitution, wherein the premature stop codon in the F5H1 gene is caused by a mutation C>T at position 370 of SEQ ID No: 115 and the amino acid substitution in the F5H2 gene Glycine to Serine at position 159 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 475 of SEQ ID No: 116.

In particular, the invention relates to a Lactuca sativa plant that may comprise one modification to the F5H1 gene homolog wherein the modification leads to a premature stop in the coding sequence of the lettuce F5H1 gene in combination with a modification to the F5H2 gene wherein the modification leads to an amino acid substitution. When both mutations, the mutation leading to a premature stop codon in the F5H1 gene homolog and the amino acid substitution in the F5H2 protein sequence, are carried by a plant the effect is enhanced and the plant which may comprise these mutations shows an delayed wound-induced surface discoloration. Therefore, a plant which may comprise a modified F5H1 gene homolog and a modified F5H2 gene homolog shows delayed wound-induced surface discoloration, as compared to a plant which may comprise only a modified F5H1 gene homolog.

A segregation analysis is performed with the F2 plants resulting from a cross of a plant showing reduced wound induced surface discoloration and which may comprise a mutation in the F5H1 gene homolog and a mutation in the F5H2 gene homolog in a homozygous state with a wild type plant that does not comprise a modified F5H gene homolog. The resulting F1 plants are selfed and the phenotype of the F2 plants grown from the obtained seeds is analyzed. The F2-plants may comprise the mutation(s) in a homozygous state, heterozygous state or do not may comprise any mutation. The results of the segregation analysis of the trait of the invention shows that in order to show reduced wound induced surface discoloration the plant may comprise the mutation 1 on the F5H1 homolog (C₃₇₀>T₃₇₀ in the F5H1 gene homolog) preferably in a homozygous state. Plants that may comprise the mutation 1 in the F5H1 homolog in a homozygous state and a mutation in the F5H2 gene homolog such as the mutation 3 in a homozygous or heterozygous state show a reduced wound-induced surface discoloration as compared to plants which may comprise only mutation 1 in the F5H1 gene homolog.

In one embodiment the invention relates to a plant which may comprise a modification to the F5H1 gene homolog of a Lactuca sativa plant as indicated in Table 3.

In yet a further embodiment the invention relates to a combination of mutation 1 of the F5H1 gene homolog and one or more of mutation 2, 3, 4, 5 and 6 of the F5H2 gene homolog of a Lactuca sativa plant as indicated in Table 3.

The invention further relates to a modified F5H gene homolog that confers reduced wound-induced surface discoloration to a plant.

The invention further relates to the use of a modified F5H gene homolog for the development of a plant exhibiting reduced wound-induced surface discoloration.

The modified F5H gene homologs that have been identified in the course of this research and described in this application, are certainly not the only modifications to the F5H gene homologs that would lead to the trait of the invention and the invention should thus not be limited to the specific modifications described in this application but extends to all other modifications to the gene and/or protein leading to reduced wound-induced surface discoloration. By using methods described herein or known in the art, the skilled person is very well capable of introducing the described or other mutations that have the same or a similar effect in lettuce or in every other plant which may comprise a F5H gene homolog.

By using a phenotypic screening test as described herein it can be established whether the wound-induced surface discoloration is reduced compared to the discoloration of a WT plant. The phenotypic test can be used to detect reduced wound-induced surface discoloration in lettuce and in other crops that have a F5H gene homolog. The modification of a gene homolog leading to reduced wound-induced surface discoloration can be used for any plant that may be subject to discoloration, but it is in particular useful for vegetables or fruits.

Moreover, the skilled person is also capable of detecting other F5H gene homologs other than the homologs characterized in this application. The skilled person may detect other gene homologs in the crops to which relates the invention or in other crops that are not described in this application. After detecting these other homologs, the skilled person is capable of modifying their sequences by using methods described in this application or known in the art. By modifying other F5H gene homologs the reduction of the wound-induced surface discoloration may be enhanced.

Amino acid substitutions may occur in regions of the protein that do not significantly affect the protein structure, function and stability. However, amino acid substitutions that occur at a position within a well conserved domain may affect the expression level or activity level of the protein. Multiple sequence alignments between F5H protein orthologs reveals highly conserved positions that may be relevant to the stability, function and/or structure of the F5H protein. It was found according to the invention, that F5H protein homologs may comprise five conserved motifs as listed in Table 1 and highlighted in the protein alignment (FIG. 4), were identified in all the species. Non-conservative amino acid changes within these conserved regions may disrupt the stability, functionality, and/or structure of the encoded F5H protein. However, modifications outside these motifs may also have an effect the stability, functionality, and/or structure of the encoded F5H protein.

More in particular, the substitution of a highly conserved Glycine residue at position 434 in the lettuce F5H2 protein (SEQ ID No: 2), which is encoded by G₁₃₀₀G₁₃₀₁A₁₃₀₂ of the lettuce F5H2 DNA sequence (SEQ ID No: 116), with a Glutamic acid residue, which is encoded by G₁₃₀₀A₁₃₀₁A₁₃₀₂, leads in combination with mutation 1 to reduced wound-induced surface discoloration to a plant as compared to a wild type plant and to a reduced wound-induced surface discoloration as compared to a plant which may comprise only mutation 1.

More in particular, the substitution of a highly conserved Serine residue at position 308 in the lettuce F5H2 protein (SEQ ID No: 2), which is encoded by T₉₂₂C₉₂₃T₉₂₄ of the lettuce F5H2 DNA sequence (SEQ ID No: 116), with a Phenylalanine residue, which is encoded by T₉₂₂T₉₂₃T₉₂₄, leads in combination with mutation 1 to reduced wound-induced surface discoloration to a plant as compared to a wild type plant and to a reduced wound-induced surface discoloration as compared to a plant which may comprise only mutation 1.

More in particular, the substitution of a highly conserved Glycine residue at position in the lettuce F5H2 protein (SEQ ID No: 2), which is encoded by G₁₃₀₆G₁₃₀₇A₁₃₀₈ of the lettuce F5H2 DNA sequence (SEQ ID No: 116), with a Glutamic acid residue, which is encoded by G₁₃₀₆A₁₃₀₇A₁₃₀₈, leads in combination with mutation 1 to reduced wound-induced surface discoloration to a plant as compared to a wild type plant and to a reduced wound-induced surface discoloration as compared to a plant which may comprise only mutation 1.

The present invention is broadly applicable to all plant species and crops that carry at least one functional F5H gene homolog in their genome. The F5H genes present in other plant species are called “gene orthologs” and are coding for F5H proteins having the same or a similar function. Identification of F5H orthologues, i.e. F5H genes in other species, can be performed in many crops, methods for which are known in the art. In the present research, orthologs of the F5H gene were identified in other crops by comparing the lettuce F5H protein sequences (SEQ ID No: 1 and 2) against sequences of other plant genomes using a Basic Local Alignment Search Tool (BLAST) program. The best hits per species were identified as candidate F5H orthologous genes, listed in Table 2. Multiple sequence alignments of the protein sequences using CLUSTAL confirmed that the candidate genes were orthologous F5H genes (FIG. 4). Once the DNA sequences of orthologous F5H genes and their encoded F5H proteins are known, this information may be used to modulate or modify the proteins encoded by said genes using the methods described herein or known by the person skilled in the art.

The invention thus also relates to a plant of the species Solanum tuberosum, Allium cepa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, which may comprise one or more modified F5H gene homologs in its genome which modified homologs lead to reduced wound-induced surface discoloration.

The invention relates to a method for selecting a plant showing reduced wound-induced surface discoloration, wherein the method may comprise screening a plant or a population of plants for the presence of a modified F5H gene homolog leading to reduced wound-induced surface discoloration in a plant, optionally applying a phenotypic test to identify plants showing reduced wound-induced surface discoloration, and selecting a plant showing reduced wound-induced surface discoloration.

Methods used to detect and select plants that show a reduction of the wound-induced discoloration are for example a phenotypic test such as the test described and illustrated in Example 2 and/or the use of molecular markers as characterized in Example 3. Both methods may be used to directly or indirectly detect and select the plants exhibiting a reduction of the wound-induced surface discoloration and which may comprise a modified F5H gene in the F1 or in any further generation resulting from a cross with a parent plant showing the reduced wound-induced discoloration and which may comprise a modified F5H gene homolog.

The trait of the invention can phenotypically be determined in a leaf disc test as described in Example 2 may comprise the step of inducing a wound by taking for example a leaf disc of the plant. The shape of the sample is not limited to discs, but rather a piece of the leaves with a wound, regardless of the shape. The sample of the leaf is incubated between wetted filter papers moistened with buffer MES and after an incubation of three, five and ten days at 7.5° C., it is compared to a leaf sample taken from a control plant that does not carry a modified F5H gene homolog in its genome, i.e. a wild type plant, that was incubated for the same time, under the same conditions.

The presence and the intensity of wound-induced surface discoloration on the different leaf disc samples can be evaluated on an appropriate scale in order to compare them. The skilled person can use a scale with any subdivision. In the phenotypic analysis described in Example 2 the wound-induced surface discoloration appears as a pink colored ring around the edges of the leaf disc. When the color is saturated and the wound-induced surface discoloration is very strong, the discoloration may appear red to very dark red. An example of scale is from 9 to 0, wherein 9 means that no discoloration on the edges is visible, score 8 means that the leaf disc has a very slight pink discoloration around the edges, score 5 means that the leaf disc has a thin ring of red/pink discoloration around the edges, score 2 means that the leaf disc has a darker and thicker ring of red/pink discoloration around the edges as compared to a leaf disc having score 9, 8, 7, 6, 5, 4 or 3 and score 0 means that the leaf disc has a very dark red and thick ring of discoloration around the edges. An example of each score is represented in FIG. 5. The scale described in this application is an example of a scale that could be used to attribute a score to a leaf disc of a plant to test and to another plant in order to compare them and to identify the reduced wound-induced surface discoloration. The scoring of the leaf discs should be preferably done by the one person.

In order to identify the reduced wound-induced surface discoloration, the score of the plant to test should be compared to the score of the wild type plant at for example 3, 5 and 10 days after sampling. Leaf discs taken from plants that show a reduced wound-induced surface discoloration have a score that is higher than the score of leaf discs of a wild type plant at the same day of incubation. Preferably the leaf discs taken from a plant showing a reduced wound-induced surface discoloration have score 9 or score 8. A plant which may comprise a modified F5H1 gene and a modified F5H2 gene has a higher score than a plant which may comprise a modified F5H1 gene homolog alone at the same day of incubation. To be comparable the leaf disc test of the plants should be performed under the same conditions with plants grown under the same conditions.

Alternatively, the wound-induced surface discoloration can also be determined by cutting the plant or a part thereof and storing this cut part until it shows wound-induced surface discoloration. The evaluation of the wound-induced surface discoloration can be performed by reproducing the usual storage conditions of the plants. The plants at mature stage are harvested and cut into pieces. For lettuce plants the cutting method may depend on the lettuce variety used to perform the test. The plant pieces are washed and stored at 5-6° C. in a cool cell in plastic bags. After 1, 2, 3, 4, 7 and 10 days after washing the presence and the intensity of the wound-induced surface discoloration are evaluated. In order to detect the discoloration, the cut leaf pieces were compared to the cut leaf pieces of the WT plant. The presence and the intensity of the wound-induced surface discoloration is detectable by the presence and intensity of a pink discoloration on the cutting edges that can be evaluated by using a scale from 9 to 4, wherein 9 means that no signs of wound-induced surface discoloration are visible, 8 means that first little traces of pink discoloration (nearly not visible, only a glow) are visible, 7 means the pink discoloration is appearing on some edges, 6 means that the pink discoloration is visible on all cutting edges, 5 means that a strong pink discoloration is visible on all cutting edges and 4 means that a dark pink discoloration is visible on all cutting edges. A plant showing reduced wound-induced surface discoloration has a higher score than a wild type plant. To be comparable the phenotypical analysis of whole lettuce heads should be performed under the same conditions with plants grown under the same conditions.

The invention relates to a molecular marker for detecting in the genome of a plant a mutation causative of reduced wound-induced surface discoloration in said plant or part thereof, wherein the marker is a mutation in any of the wild type sequences, the SEQ ID numbers of which are shown in Table 2.

The invention relates to a molecular marker for detecting in the genome of a plant a mutation causative of reduced wound-induced surface discoloration in said plant or part thereof, wherein the mutation is a nucleotide change of C>T at position 370 of SEQ ID No: 115.

The invention relates to a molecular marker for detecting in the genome of a plant a mutation causative of reduced wound-induced surface discoloration in said plant or part thereof, wherein the mutation is an amino acid substitution from Threonine to Isoleucine at position 154 of the encoded protein as a result of a change C>T at position 461 of SEQ ID No: 116, and/or an amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded protein as a result of a change G>A at position 494 of SEQ ID No: 116 and/or an amino acid substitution of Serine to Phenylalanine at position 308 of the encoded protein as a result of a change C>T at position 923 of SEQ ID No: 116, and/or an amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded protein as a result of a change G>A at position 1301 of SEQ ID No: 116, and/or an amino acid substitution Glycine to Glutamic acid at position 436 of the encoded protein as a result of a change G>A SNP at position 1307 of SEQ ID No: 116.

The invention further relates to the use of a molecular marker as described herein, to identify or develop a plant showing reduced wound-induced surface discoloration, or develop other markers linked to a modified F5H gene homolog of the invention.

The invention also relates to a method for identifying molecular markers linked to the reduced wound-induced surface discoloration of a plant, which may comprise:

a) isolating DNA from a plant and from one or both parents of said plant;

b) screening for molecular markers in a region of said DNA at or near sequence corresponding to SEQ ID Nos: 174, 175, 176, 177, 178 or 179; and

c) determining co-inheritance of said markers with the reduced wound-induced phenotype from one or both parents of said plant.

The invention also relates to the use of a molecular marker to identify a modification in a F5H gene homolog that leads to a reduced wound-induced surface discoloration, or to develop other markers linked to a modified F5H gene homolog of the invention. A molecular marker is based upon the modification to the F5H gene homologs that underlies the trait. A non-exclusive list of suitable molecular markers is provided in this application. The person skilled in the art is familiar with creating and using them for detecting and selecting plants with a modified F5H gene homolog causative of reduced wound-induced surface discoloration during breeding.

During the research that led to the present invention a number of EMS induced SNP mutations were identified in the two F5H gene homologs of Lactuca sativa. One of the identified SNPs in F5H1 resulted in a stop codon in the protein and five of the identified SNPs in F5H2 resulted in an amino acid change in the protein sequence. The SNPs can be used as markers for detecting the presence of a modified F5H gene homolog in the genome of a plant.

In a particular embodiment, one suitable molecular marker is the C₃₇₀>T₃₇₀SNP in the F5H1 gene of lettuce (Lactuca sativa) represented in Table 5 (Example 3).

In a particular embodiment, one suitable molecular marker is the C₄₆₁>T₄₆₁ SNP in the F5H2 gene of lettuce (Lactuca sativa) represented in Table 6 (Example 3).

In a particular embodiment, one suitable molecular marker is the G₄₉₄>A₄₉₄ SNP in the F5H2 gene of lettuce (Lactuca sativa) represented in Table 6 (Example 3).

In a particular embodiment, one suitable molecular marker is the C₉₂₃>T₉₂₃ SNP in the F5H2 gene of lettuce (Lactuca sativa) represented in Table 6 (Example 3).

In a particular embodiment, one suitable molecular marker is the G₁₃₀₁>A₁₃₀₁ SNP in the F5H2 gene of lettuce (Lactuca sativa) represented in Table 6 (Example 3).

In a particular embodiment, one suitable molecular marker is the G₁₃₀₇>A₁₃₀₇ SNP in the F5H2 gene of lettuce (Lactuca sativa) represented in Table 6 (Example 3).

The invention relates to the molecular markers and the use of these markers to identify the modified F5H gene homologs leading to reduced wound-induced surface discoloration in all the plants which may comprise a F5H gene homolog. The SNP markers mentioned above are particularly suitable for use in Lactuca sativa.

The invention relates to a method of determining the presence of a modified F5H gene homolog in a plant of the invention, which may comprise the steps of obtaining a sample of nucleic acids from said plant, comparing said nucleic acids to a sample of nucleic acids obtained from a reference plant which may comprise the wild type F5H gene homolog, and detecting a polymorphism between the two nucleic acid samples, wherein the detected polymorphism is indicative of the presence of said modified homolog.

Preferably, the wild type F5H gene homolog is any one of the sequences of which the SEQ ID numbers are listed in Table 2.

A modified F5H gene may be introduced into any other genetic background of the same or a different species. The plant lacking the modification may have other desired traits. For sexually compatible plants the introgression can be achieved through crossing and/or backcrossing and selecting in the first generation in which the reduced wound-induced surface discoloration is detectable. Crossing can optionally be followed by embryo rescue techniques or other techniques that result in a successful combination and introgression, which techniques are known to the person skilled in the art. The parent plants may be plants grown directly from the deposited seeds or progeny plants from the seed or a progeny plant from seeds that are identified to have the trait of the invention by other means.

When a trait is dominant monogenic, it can be introgressed into another plant in only one generation (F1). When a trait is recessive and/or involves more than one gene, introgression may encompass a breeding process that takes multiple generations. Introgression is used herein to describe the entire process. For a dominant trait, the selection of the plants carrying the modification can start in the F1 or any further generation resulting from a cross between a plant with the desired trait and a plant without this trait. For a recessive trait, the selection with a phenotypic test and/or with the use of molecular markers is started in the F2 or any further generation resulting from a cross or alternatively from a backcross.

In a particular embodiment, one or more modified lettuce F5H gene homologs can be introgressed from a Lactuca sativa plant carrying the modified lettuce F5H gene homolog into a Lactuca sativa plant lacking modified lettuce F5H gene homologs using standard breeding techniques.

The invention further relates to propagation material suitable for producing a plant that may comprise one or more modified F5H genes in its genome and exhibits reduced wound-induced discoloration. In one embodiment, the propagation material is formed by parts of the plant that are suitable for sexual reproduction, in particular a microspore, pollen, ovary, ovule, embryo sac and egg cell. In another embodiment, the propagation material is formed by parts suitable for vegetative reproduction, in a particular a microspore, pollen, ovary, ovule, embryo, embryo sac, egg cell, cutting, root, root tip, hypocotyl, cotyledon, stem, leaf, flower, anther, seed, meristematic cell, protoplast and a cell, or a tissue culture thereof.

The invention also relates to a plant grown or regenerated from the said propagation material, which plant may comprise in its genome one or more modified F5H genes as defined herein, providing the plant with reduced wound-induced surface discoloration.

In particular, the plant produced from the propagation material may comprise the modified F5H gene homolog as found in lettuce plants grown from seeds, and of which representative seed was deposited with the NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551.

The invention also relates to the use of a plant of the invention that may comprise a modified F5H gene, which provides to a plant the reduction of wound-induced surface discoloration, in plant breeding to confer this trait.

The invention relates to a method for producing a plant showing reduced wound-induced surface discoloration which may comprise:

a) crossing a plant which may comprise a modified F5H gene homolog of claim 1, with another plant;

b) optionally performing one or more rounds of selfing and/or crossing; and

c) optionally selecting after each round of selfing or crossing for a plant that may comprise said reduced wound-induced surface discoloration.

In one embodiment the plant is phenotypically selected and/or selected by use of molecular markers.

In one aspect the invention relates to a method for production of a plant that shows reduced wound-induced surface discoloration, which may comprise

a) crossing a plant which may comprise a modified F5H gene homolog of the invention that leads to the trait with another plant;

b) selfing the resulting F1 for obtaining F2 plants;

c) selecting plants that have the trait in the F2;

d) optionally performing one or more additional rounds of selfing or crossing, and subsequently selecting, for a plant which may comprise/showing the trait of the invention.

In one aspect, the invention relates to a method for production of a plant that shows reduced wound-induced surface discoloration, which may comprise

a) crossing a plant which may comprise a modified F5H gene homolog of the invention that leads to the trait with another plant;

b) optionally backcrossing the resulting F1 with the preferred parent;

c) selecting for plants that have the trait in the F2;

d) optionally performing one or more additional rounds of selfing or crossing, and subsequently selecting, for a plant which may comprise the trait.

The invention additionally provides a method of introducing another desired trait into a plant which has the trait of the invention, which may comprise:

a) crossing a plant that may comprise a modified F5H gene homolog of the invention and that shows reduced wound-induced surface discoloration, with a second plant that may comprise a desired trait to produce F1 progeny;

b) selecting an F1 progeny plant that may comprise said trait of reduced wound-induced surface discoloration and the desired trait;

c) crossing the selected F1 progeny with either parent, to produce backcross progeny;

d) selecting backcross progeny which may comprise the desired trait and showing reduced wound-induced surface discoloration; and

e) optionally repeating steps c) and d) one or more times in succession to produce selected fourth or higher backcross progeny that may comprise a modified F5H gene homolog and that shows reduced wound-induced surface discoloration. The invention includes a plant produced by this method.

In one embodiment the selection for plants that show reduced wound-induced surface discoloration is done in the F1 or any further generation by using the markers described in Example 3. In another aspect selection for the trait of the invention is started in the F2 of a cross or alternatively of a backcross. Selection of plants in the F2 can be done phenotypically as well as by using the said marker(s) which directly or indirectly detect the modified F5H gene underlying the trait.

In one embodiment selection for plants that show reduced wound-induced surface discoloration is started in the F3 or a later generation.

In one embodiment the plant which may comprise a F5H gene homolog of the invention is a plant of an inbred line, a hybrid, a doubled haploid, or of a segregating population.

The invention further provides a method for the production of a plant that shows reduced wound-induced surface discoloration by using a doubled haploid generation technique to generate a doubled haploid line which may comprise the said trait.

The invention further relates to hybrid seed that can be grown into a plant that shows reduced wound-induced surface discoloration and to a method for producing such hybrid seed which may comprise crossing a first parent plant with a second parent plant and harvesting the resultant hybrid seed, wherein said first parent plant and/or said second parent plant is the plant as claimed.

The invention further relates to a method for producing a hybrid plant that that shows reduced wound-induced surface discoloration, which may comprise crossing a first parent plant with a second parent plant and harvesting the resultant hybrid seed, of which the first parent plant and/or the second parent plant is a plant that shows reduced wound-induced surface discoloration, and growing said hybrid seeds into hybrid plants that show reduced wound-induced surface discoloration.

The invention also relates to a method of producing a hybrid plant seed which may comprise crossing a first parent plant with a second parent plant and harvesting the resultant plant seed, wherein said first parent plant and/or said second parent plant may comprise a modified F5H gene homolog of the invention.

The invention also relates to a method for the production of a plant that shows reduced wound-induced surface discoloration, which may comprise growing the plant from a seed that may comprise a modified F5H gene homolog in its genome that leads to the trait of reduced wound-induced surface discoloration. The seeds are suitably seeds of which a representative sample was deposited with the NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551.

The invention also relates to a method for seed production which may comprise growing plants from seeds of which a representative sample was deposited with the NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551, allowing the plants to produce seeds, and harvesting those seeds. Production of the seeds is suitably done by crossing or selfing.

The invention relates to a method for the production of a plant that shows reduced wound-induced surface discoloration by tissue culture using a plant of the invention as described herein as the source of the tissue.

The invention furthermore relates to a method for the production of a plant that shows reduced wound-induced surface discoloration by vegetative reproduction of parts of a plant of the invention as described herein.

In one embodiment, the invention relates to a method for the production of a plant that shows reduced wound-induced surface discoloration by using a method for genetic modification to introgress the said trait into the plant from a plant of the invention. Genetic modification may comprise transgenic modification or transgenesis, using a gene from a non-crossable species or a synthetic gene, and cisgenic modification or cisgenesis, using a natural gene, coding for an (agricultural) trait, from the crop plant itself or from a sexually compatible donor plant.

The invention also relates to a breeding method for the development of plants that show reduced wound-induced surface discoloration wherein germplasm which may comprise said trait is used. Representative seed of said plant which may comprise the modified F5H gene homolog and being representative for the germplasm was deposited with the NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551.

In a further embodiment the invention relates to a method for the production of a plant that shows reduced wound-induced surface discoloration wherein progeny or propagation material of a plant which may comprise the modified F5H gene homolog conferring said trait is used as a source to introgress the said trait into another plant. Representative seed of said plant which may comprise the modified F5H gene homolog was deposited with the NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551.

The invention provides preferably a plant showing reduced wound-induced surface discoloration, which plant is obtainable by any of the methods herein described and/or familiar to the skilled person.

In the course of breeding a new plant carrying a modified F5H gene homolog, desirable agronomic traits may be introduced into plant independently of the modified F5H gene. As used herein, “desirable traits” include but are not limited to e.g. improved yield, leaf shape, leaf size, leaf number, leaf color, seed number, seed size, plant vigor, plant height, bolting, and resistance to one or more diseases or disease causing organisms. Any one of these desirable traits may be combined with a modified F5H gene homolog.

The invention further relates to a method for producing an agronomically elite plant that shows the reduced wound-induced surface discoloration of the invention, which may comprise introgressing a modified F5H gene homolog into a agronomically elite plant. This can be achieved by methods described in this application or known in the art. The invention also includes a plant produced by this method.

In yet a further embodiment the agronomically elite plant of the invention is an inbred line or a hybrid.

As used herein, a plant of an inbred line is a plant of a population of plants that is the result of three or more rounds of selfing, or backcrossing; or which plant is a double haploid. An inbred line may e.g. be a parent line used for the production of a commercial hybrid.

As used herein, a hybrid plant is a plant which is the result of a cross between two different plants having different genotypes. More in particular, a hybrid plant is the result of a cross between plants of two different inbred lines, such a hybrid plant may e.g. be a plant of an F₁ hybrid variety.

In one embodiment the plant of the invention, i.e. a plant which may comprise the modified F5H gene of the invention, is an agronomically elite plant.

In the context of this invention an agronomically elite plant is a plant having a genotype that as a result of directed crossing and selection by human intervention results into an accumulation of distinguishable and desirable agronomic traits which allow a producer to harvest a product of commercial significance.

The invention also relates to a food product which may comprise a part of a plant of the invention. The food product may comprise one or more harvested parts of plants of the invention, to food products which may comprise harvested leaves of plants of the invention, either in natural or in processed form, and to a container which may comprise one or more plants of the invention in a growth substrate for harvest of leaves from the lettuce plant in a domestic environment. The harvested part or food product may be, or comprise the head and/or part of a plant such as leaves of a plant of the invention. The food product or harvested part, may have undergone one or more processing steps. Such a processing step might comprise but is not limited to any one of the following treatments or combinations thereof: cutting, washing, or a salad mixture which may comprise parts of the plant of the invention such as leaves. The processed form that is obtained is also part of the invention. All the food products and harvested parts carry in their genome modified F5H gene homolog of the invention.

The invention relates to a part of a plant of the invention, wherein the part is a leaf, a whole head of a plant, a fruit, an inflorescence, a seeds, a curd, a stem, a tuber, a bulb or a root, optionally in processed form.

The invention further relates to a seed capable of developing into a plant of the invention.

The invention also relates to a seed of a plant of the invention, wherein the seed may comprise a modified F5H gene homolog in its genome.

The invention further relates to a cell of a plant of the invention, which cell may comprise a modified F5H gene in its genome and provides the plant with reduced wound-induced discoloration. Such cell may be either isolated from or may be part of a plant or parts thereof.

The invention also relates to a cell of a lettuce plant (Lactuca sativa), which lettuce plant shows reduced wound-induced surface discoloration as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 under NCIMB and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550, or NCIMB 42551.

The invention also relates to a cell of a plant, which plant may comprise a modified F5H gene and shows reduced wound-induced surface discoloration.

The invention also relates to a cell of a plant that may comprise a modified F5H gene and that shows reduced wound-induced surface discoloration, which plant is obtainable by crossing a plant which may comprise a modified F5H gene and selecting for a plant that shows a reduced wound-induced surface discoloration.

The invention also relates to cell of a lettuce plant (Lactuca sativa), which lettuce plant shows reduced wound-induced surface discoloration as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 under NCIMB and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550, or NCIMB 42551, which lettuce plant is obtainable by crossing a lettuce plant with a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 under NCIMB and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550, or NCIMB 42551, and selecting for a lettuce plant that shows a reduced wound-induced surface discoloration.

The invention also relates to the use of seeds that were deposited under NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551, for developing plants showing reduced wound-induced surface discoloration into another lettuce plant (Lactuca sativa).

The invention also relates to the use of the seeds of which a representative sample was deposited under NCIMB under accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551 for transferring the reduced wound-induced surface discoloration trait into another agronomically valuable lettuce plant.

The invention also relates to the use of a plant that may comprise a modified F5H gene homolog of the invention and shows reduced wound-induced surface discoloration, as a crop.

In particular the invention relates to the use of a lettuce plant (Lactuca sativa) that exhibits reduced wound-induced surface discoloration, as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 or NCIMB 42551, as a crop.

The invention also relates to the use of a plant that may comprise a modified F5H gene homolog of the invention and shows reduced wound-induced surface discoloration, as a source of seed.

In particular the invention relates to the use of a lettuce plant (Lactuca sativa) that exhibits reduced wound-induced surface discoloration, as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 or NCIMB 42551, as a source of seed.

The invention also relates to the use of a plant that may comprise a modified F5H gene homolog of the invention and shows reduced wound-induced surface discoloration, as a source of propagation.

In particular the invention relates to the use of a lettuce plant (Lactuca sativa) that exhibits reduced wound-induced surface discoloration, as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 or NCIMB 42551, as a source of propagating material.

The invention also relates to the use of a plant that may comprise a modified F5H gene homolog of the invention and shows reduced wound-induced surface discoloration, for consumption.

In particular the invention relates to the use of a lettuce plant (Lactuca sativa) that exhibits reduced wound-induced surface discoloration, as found in a lettuce plant grown from seed as deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, 42550 or NCIMB 42551, for consumption. The invention also relates to the use of a modified F5H gene homolog of the invention, for conferring reduced wound-induced surface discoloration to a plant.

In particular, the invention relates to the use of a F5H gene homolog as found in seeds that were deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 or NCIMB 42551, for conferring reduced wound-induced surface discoloration to a lettuce plant (Lactuca sativa).

The invention relates to the use of a plant as a recipient of modified F5H gene homologs of the invention.

In particular, the invention relates to the use of a lettuce plant (Lactuca sativa) as found in seeds that were deposited with the NCIMB on found in seeds that were deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 or NCIMB 42551.

The invention also relates to the use of modified F5H gene of the invention for conferring reduced wound-induced surface discoloration to a plant.

In particular, the invention relates to the use of a modified F5H gene homolog as found in seeds that were deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550, or NCIMB 42551, conferring reduced wound-induced surface discoloration to a lettuce plant (Lactuca sativa).

The invention also relates to the use of seeds that were deposited with the NCIMB on 19 Feb. 2016 and having one of the accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550, or NCIMB 42551, for transferring reduced wound-induced surface discoloration into another lettuce plant (Lactuca sativa).

TABLE 2 Overview of the F5H orthologs. The overview indicates which SEQ ID Nos are linked to which plant species. Common SEQ Name Species Name Detail ID No Lettuce_LsF5H_1_1 Lactuca sativa Lettuce Protein  1 Lettuce_LsF5H_2_1 Lactuca sativa Lettuce Protein  2 Endive_ce_gene1 Cichorium Endive Protein  3 endivia Endive_ce_gene2 Cichorium Endive Protein  4 endivia Endive_ce_kethel_v0.1_EVM71979 Cichorium Endive Protein  5 endivia Chicory_ci_vitessa_fr_v1_EVM170737 Cichorium Chicory Protein  6 intybus Chicory_ci_vitessa_fr_v1_EVM170780 Cichorium Chicory Protein  7 intybus Chicory_ci_vitessa_fr_v1_EVM158591 Cichorium Chicory Protein  8 intybus Celery_RZ_draft_99.605_EVM363634 Apium Celery/Celariac Protein 11 graveolens Celery_RZ_draft_99.605_EVM348724 Apium Celery/Celariac Protein 12 graveolens Celery_c17480_g1_i1|m.26831 Apium Celery/Celariac Protein 13 graveolens Brassica_Bo1g005770 Brassica Cabbage/ Protein 14 oleracea Cauliflower Brassica_Bo7g117840 Brassica Cabbage/ Protein 15 oleracea Cauliflower Brassica_Bo7g119430 Brassica Cabbage/ Protein 16 oleracea Cauliflower Brassica_Bo3g093960 Brassica Cabbage/ Protein 17 oleracea Cauliflower Brassica_XP_013607401.1 Brassica Cabbage/ Protein 18 oleracea Cauliflower Eggplant_c18725_g1_i1|m.19489 Solanum Eggplant Protein 19 melongena Eggplant_sm_67_3_v1_EVM112823_1_ Solanum Eggplant Protein 20 melongena Potato_XP_006340697.1 Solanum Potato Protein 21 tuberosum Apple_XP_008372753.1 Malus Apple Protein 22 domestica Apple_XP_008337913.1 Malus Apple Protein 23 domestica Apple_XP_008391587.1 Malus Apple Protein 24 domestica Pear_XP_009378215.1 Pyrus x Pear Protein 25 bretschneideri Pear_XP_009338655.1 Pyrus x Pear Protein 26 bretschneideri Pear_AGR44939.1 Pyrus x Pear Protein 27 bretschneideri Pear_XP_009346304.1 Pyrus x Pear Protein 28 bretschneideri Pear_XP_009378429.1 Pyrus x Pear Protein 29 bretschneideri Peach_XP_007199246.1 Prunus persica Peach Protein 30 Peach_XP_007203643.1 Prunus persica Peach Protein 31 Banana_XP_009384541.1 Musa Banana Protein 32 acuminata Banana_XP_009384087.1 Musa Banana Protein 33 acuminata Banana_XP_009411495.1 Musa Banana Protein 34 acuminata Banana_XP_009403617.1 Musa Banana Protein 35 acuminata Wheat_A0A077RPS5 Triticum Wheat Protein 36 aestivum Wheat_W5A2I1 Triticum Wheat Protein 37 aestivum Wheat_W5B6W3 Triticum Wheat Protein 38 aestivum Wheat_A0A077RQ37 Triticum Wheat Protein 39 aestivum Wheat_W5AC21 Triticum Wheat Protein 40 aestivum Rice_Os03g0112900 Oryza sativa Rice Protein 41 Rice_Os10g0512400 Oryza sativa Rice Protein 42 Maize_A0A0B4J2X1 Zea mays Corn Protein 43 Maize_B4FWF9 Zea mays Corn Protein 44 Soybean_G3E7M3 Glycine max Soy Protein 45 Soybean_I1J8P0 Glycine max Soy Protein 46 Soybean_Q2LAL3 Glycine max Soy Protein 47 Soybean_K7MH28 Glycine max Soy Protein 48 Soybean_I1LHY5 Glycine max Soy Protein 49 Artichoke_KVI02897.1 Cynara Artichoke Protein 50 cardunculus var. scolymus Artichoke_KVH92322.1 Cynara Artichoke Protein 51 cardunculus var. scolymus Radish_GSRAST00026355001 Raphanus Radish Protein 52 sativus Radish_GSRAST00007419001 Raphanus Radish Protein 53 sativus Radish_GSRAST00001088001 Raphanus Radish Protein 54 sativus Radish_GSRAST00042054001 Raphanus Radish Protein 55 sativus Radish_rs_Aokubi_v1_EVM13601 Raphanus Radish Protein 56 sativus Onion_AC.SP3B.Locus_5396.1.10 Allium cepa Onion Protein 57 Lettuce_LsF5H_1_1 Lactuca sativa Lettuce Genomic 58 DNA Lettuce_LsF5H_2_1 Lactuca sativa Lettuce Genomic 59 DNA Endive_ce_gene1 Cichorium Endive Genomic 60 endivia DNA Endive_ce_gene2 Cichorium Endive CDS 61 endivia Endive_ce_kethel_v0.1_EVM71979 Cichorium Endive Genomic 62 endivia DNA Chicory_ci_vitessa_fr_v1_EVM170737 Cichorium Chicory Genomic 63 intybus DNA Chicory_ci_vitessa_fr_v1_EVM170780 Cichorium Chicory Genomic 64 intybus DNA Chicory_ci_vitessa_fr_v1_EVM158591 Cichorium Chicory Genomic 65 intybus DNA Celery_RZ_draft_99.605_EVM363634 Apium Celery/Celariac Genomic 68 graveolens DNA Celery_RZ_draft_99.605_EVM348724 Apium Celery/Celariac Genomic 69 graveolens DNA Celery_c17480_g1_i1|m.26831 Apium Celery/Celariac CDS 70 graveolens Brassica_Bo1g005770 Brassica Cabbage/ Genomic 71 oleracea Cauliflower DNA Brassica_Bo7g117840 Brassica Cabbage/ Genomic 72 oleracea Cauliflower DNA Brassica_Bo7g119430 Brassica Cabbage/ Genomic 73 oleracea Cauliflower DNA Brassica_Bo3g093960 Brassica Cabbage/ Genomic 74 oleracea Cauliflower DNA Brassica_XP_013607401.1 Brassica Cabbage/ Genomic 75 oleracea Cauliflower DNA Eggplant_c18725_g1_i1|m.19489 Solanum Eggplant CDS 76 melongena Eggplant_sm_67_3_v1_EVM112823_1_ Solanum Eggplant Genomic 77 melongena DNA Potato_XP_006340697.1 Solanum Potato Genomic 78 tuberosum DNA Apple_XP_008372753.1 Malus Apple Genomic 79 domestica DNA Apple_XP_008337913.1 Malus Apple Genomic 80 domestica DNA Apple_XP_008391587.1 Malus Apple Genomic 81 domestica DNA Pear_XP_009378215.1 Pyrus x Pear Genomic 82 bretschneideri DNA Pear_XP_009338655.1 Pyrus x Pear Genomic 83 bretschneideri DNA Pear_AGR44939.1 Pyrus x Pear CDS 84 bretschneideri Pear_XP_009346304.1 Pyrus x Pear Genomic 85 bretschneideri DNA Pear_XP_009378429.1 Pyrus x Pear Genomic 86 bretschneideri DNA Peach_XP_007199246.1 Prunus persica Peach Genomic 87 DNA Peach_XP_007203643.1 Prunus persica Peach Genomic 88 DNA Banana_XP_009384541.1 Musa Banana Genomic 89 acuminata DNA Banana_XP_009384087.1 Musa Banana Genomic 90 acuminata DNA Banana_XP_009411495.1 Musa Banana Genomic 91 acuminata DNA Banana_XP_009403617.1 Musa Banana Genomic 92 acuminata DNA Wheat_A0A077RPS5 Triticum Wheat Genomic 93 aestivum DNA Wheat_W5A2I1 Triticum Wheat Genomic 94 aestivum DNA Wheat_W5B6W3 Triticum Wheat Genomic 95 aestivum DNA Wheat_A0A077RQ37 Triticum Wheat Genomic 96 aestivum DNA Wheat_W5AC21 Triticum Wheat Genomic 97 aestivum DNA Rice_Os03g0112900 Oryza sativa Rice Genomic 98 Japonica DNA Rice_Os10g0512400 Oryza sativa Rice Genomic 99 Japonica DNA Maize_A0A0B4J2X1 Zea mays Corn Genomic 100 DNA Maize_B4FWF9 Zea mays Corn Genomic 101 DNA Soybean_G3E7M3 Glycine max Soy Genomic 102 DNA Soybean_I1J8P0 Glycine max Soy Genomic 103 DNA Soybean_Q2LAL3 Glycine max Soy Genomic 104 DNA Soybean_K7MH28 Glycine max Soy Protein 105 Soybean_I1LHY5 Glycine max Soy Genomic 106 DNA Artichoke_KVI02897.1 Cynara Artichoke Genomic 107 cardunculus DNA var. scolymus Artichoke_KVH92322.1 Cynara Artichoke Genomic 108 cardunculus DNA var. scolymus Radish_GSRAST00026355001 Raphamus Radish Genomic 109 sativus DNA Radish_GSRAST00007419001 Raphamus Radish Genomic 110 sativus DNA Radish_GSRAST00001088001 Raphamus Radish Genomic 111 sativus DNA Radish_GSRAST00042054001 Raphamus Radish Genomic 112 sativus DNA Radish_rs_Aokubi_v1_EVM13601 Raphamus Radish Genomic 113 sativus DNA Onion_AC.SP3B.Locus_5396.1.10 Allium cepa Onion Genomic 114 DNA

TABLE 3 Modifications of the F5H1 and F5H2 gene homologs of Lactuca sativa AA Mutation F5H Nt. Pos. CDS change number gene change Nt. change Codon change AA change Pos. 1 F5H1 C > T 370 C₃₇₀A₃₇₁A₃₇₂ > Gln > stop 124 T₃₇₀A₃₇₁A₃₇₂ 2 F5H2 C > T 461 A₄₆₀C₄₆₁C₄₆₂ > Thr > Ile 154 A₄₆₀T₄₆₁C₄₆₂ 3 F5H2 G > A 494 G₄₉₃G₄₉₄A₄₉₅ > Gly > Glu 165 G₄₉₃A₄₉₄A₄₉₅ 4 F5H2 C > T 923 T₉₂₂C₉₂₃T₉₂₄ > Ser > Phe 308 T₉₂₂T₉₂₃T₉₂₄ 5 F5H2 G > A 1301 G₁₃₀₀G₁₃₀₁A₁₃₀₂ > Gly > Glu 434 G₁₃₀₀A₁₃₀₁A₁₃₀₂ 6 F5H2 G > A 1307 G₁₃₀₆G₁₃₀₇A₁₃₀₈ > Gly > Glu 436 G₁₃₀₆A₁₃₀₇A₁₃₀₈ (AA = Amino acid, Nt = Nucleotide, CDS = DNA coding sequence, Pos. = Position)

Table 3 shows the F5H1 and F5H2 mutations and the effect on the encoded F5H1 and F5H2 protein sequences. Positions are as in the sequences of Lactuca sativa, SEQ ID No: 115 (F5H1 CDS sequence wild type), SEQ ID No: 116 (F5H2 CDS sequence wild type), SEQ ID No: 1 (F5H1 protein sequence wild type) and SEQ ID No: 2 (F5H2 protein sequence wild type).

SEQUENCES Protein SEQ ID No: 1 >Lettuce_LsF5H_1_1 MESLQIPIAFYAIIAILTFFFLSWVRRKPLPPGPMGWPIIGNMLMMDQLTHRGL ARLAEKYGGILHLKMGFSHTIAVSSPEMARIILQEKDNIFANRPATIAITYLTYNGVDLAF ANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDTMVKATAINSGTPVNLGELVFG LTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPFLGFIDPAGLNTRLPAARA ALDGFIDKIIDEHLRKGKKTGDEGLDNDMVDEMLAFYSEEGKVNEGGDLQNAINLTRD NIKAIIMDVMFGGTETVASAIEWAMTELMHTPEALKRVQQEMANVVGLDRRVEESDLE KLTYFKCVIKETLRLHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNAYAINRDKNSWEDP DTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHCFTWEL PDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 2 >Lettuce_LsF5H_2_1 MDPKSILLYVVLPLLTFFLLSRLRRKPLPPGPRGWPLIGNMLMMDQLTHRGL ARLGEKYGGLLHLKMGFSHTVAVSSPEIARQVLQVQDNIFANRPATIAISYLTYDRQDM AFANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVVSMVKITAASSGTAVNLGELV FGLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFVPWLGFIDPAGLNTRLPKA RAALDRFIDKIIDEHLAKERKTGDEEDNDMVDEMLAFYSEEGKVNEGEDLQNAIRLTRN NIKAIIMDVMFGGTETVASAIEWALTELMHTPESLKRAQQELADVVGLDRRVEESDFEK LTYFKCVIKETLRLHPPIPVLLHQSSEATSVAGYHIPKGTRVMVNAFAINRDKNSWKDPH TFNPSRFLQDGAPDFKGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHSFTWQLP DGMKPSEIDMNDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 3 >Endive_ce_gene1 MDYLQIPIPIYAIIAILTFFFLAWLRRKPLPPGPMGWPIIGNMLMMDQLTHRGL ASLANKYGGILHLKMGFSHTIAVSSPEIARQILQEKDNIFANRPATIAITYLTYNRVDMAF ANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDTMVKATATNSGLPVNLGELVF GLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPMLGFIDPAGLNTRLPAAR AALDGFIDKIIDEHLSKEKKTGDENVDNDMVDEMLAFYSEDGRINEGGDLQNAINLTRD NIKAIIMDVMFGGTETVASAIEWTMTELMHTPEALXRVQQELTNVVGLDRRVEESDFEK LTYFKCVIKETLRMHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNAYAINRDKXSWEDP DTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHCFTWDL PDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 4 >Endive_ce_gene2 MDSLQIPIPVYAIIAILTFFFLAWLRRKPLPPGPIGWPIIGNMLMMDQLTHRGL ASLAKKYGGILHLKMGFSHTIAVSSPEIARQILQEKDNIFANRPATIAITYLTYNRVDMAF ANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDTMVKATAINSGLPVNLGELVFG LTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPMLGFIDPAGLNTRLPAARA ALDGFIDKIIDEHLSKEKKTGDENVDNDMVDEMLAFYSEDGRVNEGGDLQNAINLTRD NIKAIIMDVMFGGTETVASAIEWTMTELMHTPEALKRVQQELTNVVGLDRRVEESDFEK LTYFKCVIKETLRMHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNAYAINRDKNSWEDP DTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLLCFTWEL PDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 5 >Endive_ce_kethel_v0.1_EVM71979 MDPMSILLYVVLPLFTFFLLSRFRRKPLPPGPRGWPVIGNMLMMDQLTHRGL ARLGEKYGGLLHLKMGFSHTVAVSSPEIARQVLQVQDNIFANRPATIAISYLTYDRQDM AFANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVVSMIKITAASSGSAVNLGELVF GLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPWLGFIDPAGLNNRLPKAR AALDGFIDKIIDEHLRKEKKTGDEEDNDMVDEMLAFYSEEGKVNEGEDLQNAIRLTRNN IKAIIMDVMFGGTETVASAIEWALTELMHTPESLKRAQQELVDVVGLDRRVEESDFEKL TYFRCVIKETLRLHPPIPVLLHQSSEATEVAGYHIPKGTRVMVNAFAINRDKNSWKDPHT FNPSRFLQDGAPDFKGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHSFTWQLPD GMKPSEIDMSDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 6 >Chicory_ci_vitessa_fr_vl_EVM170737 MDSLQIPIPVYAIIAVLTFVFVAWLRRKPLPPGPMGWPIIGNMLMMDQLTHR GLASLAKKYGGILHLKMGFSHTIAVSSPEIARQILQEKDNIFANRPATIAITYLTYNRVDM AFANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDTMVKATATNSGLPVNLGEL VFGLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPMLGFIDPAGLNTRLPA ARAALDGFIDKIIDEHLSKEKKTGDENVDNDMVDEMLAFYSEDGRINEGGDLQNAINLT RDNIKAIIMDVMFGGTETVASAIEWTMTELMHTPEALKRVQQELTNVVGLDRRVEESDF EKLTYFKCVIKETLRMHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNAYAINRDKNSWE DPDTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHCFTW ELPDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 7 >Chicory_ci_vitessa_fr_v1_EVM170780 MDSLQIPIPVYAIIAILTFFFLAWLRRKPLPPGPMGWPIIGNMLMMDQLTHRGL ASLAKKYGGILHLKMGFSHTIAVSSPEIARQILQEKDNIFANRPATIAITYLTYNRVDMAF ANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDTMVKATAINSGLPVNLGELVFG LTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPMLGFIDPAGLNTRLPAARA ALDGFIDKIIDEHLSKEKKTGDENVDNDMVDEMLAFYSEDGRVNEGGDLQNAINLTRD NIKAIIMDVMFGGTETVASAIEWTMTELMHTPEALKRVQQELTNVVGLDRRVEESDFEK LTYFKCVIKETLRMHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNAYAINRDKNSWEDP DTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHCFTWEL PDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 8 >Chicory_ci_vitessa_fr_v1_EVM158591 MDPMSILLYVVLPLFTFFLLSRLRRKPLPPGPRGWPVIGNMLMMDQLTHRGL ARLGEKYGGLLHLKMGFSHTVAVSSPEIARQVLQVQDNIFANRPATIAISYLTYDRQDM AFANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVISMIKITAASSGSAVNLGELVF GLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPWLGFIDPAGLNTRLPKAR AALDGFIDKIIDEHLSKEKKTGDEEDNDMVDEMLAFYSEEGKVNEGEDLQNAIRLTRNN IKAIIMDVMFGGTETVASAIEWALTELMHTPESLKRAQQELADVVGLDRRVEESDFEKL TYFRCVIKETLRLHPPIPVLLHQSSEATEVAGYHIPKGTRVMVNAFAINRDKNSWKDPH MFNPSRFLQDGAPDFKGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVAHLLHSFTWQLP DGMKPSEIDMSDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 11 >Celery_RZ_draft_99.605_EVM363634 MSLLFILLLTIISMIFFISRFGGKPYPPGPRRLPVIGNTLMMACLTHRGLAKLAS RYGGLFYLRMGAQDIVVVSTPDMARQILQTHQDQISNRPTSIALDYLSYGRANMAFAD YSPWWRQMRKICVMKLFSRARVESWNSVRDELNHMLRDVASNANQAINLGELVFGFT EKIIYRAAFGSRLSDGGTEFIKIMQEFSKLFGSFNVCDFVPWMSRADPQGLKARLRKARG SLDTFIDSIIDQHIIKRKGKNIGDKDMVDELLAFYTEEGEAKAESDDLQATIKLTKNNIKGI IMDIMFGGTETVAAAIEWAMSELLKNPEELRKTQEELSNVVGLHRCVEEGDLEKLTYLK CVLKETLRLHPPLPFLPRAAAEDVYVAGYYIPAGSRVIINLWANIGHDGKCWNDEPEAF KPSRFLDVGAPDYRNNNFEFIPFGTGRRSCPGMQLGLHAFEMGLAHLLHCFNWELPDG MKPSQVDMSDMYGLSAPKATRLIAVPTPRLLCPIC SEQ ID No: 12 >Celery_RZ_draft_99.605_EVM348724 MTTIFFFLLLLCLFLARRKPYPPGPKGWPIIGNMLIMDKLTHRGLAKIATQYG GIVHLRMGFLHMVTVSTPDMVREVLQIQDTVFANRPATMNISYLTYNRADMAFANYGP FWRQMRKISIIKLFSRKRAESWDSVRDQVDDMLGKVVSNSGLSVNIGELVFGLTRNIIYR AAFGSISGQGQDEFIKIMQEFSKLFGAFNICDFVPGITWLDPQGFKVRLVKARESLDKFID SILDEHIANQKSNLNGSTDEGNGDMVYQLLAFYSEEQSKVNHSDDTNNALKLTRDNIKA IIMDVMFGGTETVASAIEWAMSELMGSPEDLKRVQQELIDVVGLHRRVEENDFDKLIYL KCCIKETLRLHPPIPLLLHETAQEAVVAGYHIPAKSRVMINSWAVNRDPNSWDDPEKFK PSRFLKQGMPDFKGSNFEFIPFGSGRRSCPGMQLGLYAFEMAVAHLLHSFNWELPDGM KPSELDTNDVFGLTAPRATRLVAVPTPRLLCSIC SEQ ID No: 13 >Celery_c17480_gl_i1|m.26831 METNTTAMTILFFILPLLSFFLLSSFRRKRYPPGPKGWPIIGNLLMMDKLSHRG LAKLAAQYGGLVHLRMGFLHMFTVSTPDMAREVLQIQDNIFANRPATMNISYLTYDRA DMAFANYGPFWRQMRKISVMKLFSRKRAESWDSVREEVDDMVKIVLSKTGCSVNIGEL VFGLTRNIIYRAAFGTLSHEGQDEFIKILQEFSKLFGAFNICDFVPGLTWADPQGFMGRV VKARASLDGFIDSIIDAHIEKKKSSKNGIIDEGNSDMVYELLDFYGEEKAKVSEFEDQNSS LKLTRDNIKAIIMDVMFGGTETVASAIEWAMSELMRSPKDLKKVQQELVNVVGLHRRV EESDFDKLTYLKCCIKETLRLHPPIPLLLHETAQDAEVAGYHIPARSRVIINSWAINRDPNS WTDPDTFKPSRFLQEGMPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEIAVAHLLHCFN WELPDGMKPSEVDTDDVFGLTAPRATRLVAVPTPRLLCPIS SEQ ID No: 14 >Brassica_Bo1g005770 MESSISQTLSQVLDPTTGILIVVSLFIFIGLITRGRRPPYPPGPRGWPIIGNMSMM DQLTHRGLANLAKKYGGLCHLRMGFLHMYAVSSPDVARQVLQVQDSVFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKVCVMKVFSRKRAESWASVRDEVDRMIRSVSSNV GKSINVGEQIFALTRNITYRAAFGSACEKGQDEFIRILQEFSKLFGAFNVADFIPYFGWIDP QGINKRLVKARNDLDGFIDDIIDEHIKKKENQNSIDAGDVVDTDMVDDLLAFYSEEAKL VSETADLQNSIKLTRDNIKAIIIVIDVMFGGTETVASAIEWALTELLRSPEDLKRVQQELAE VVGLDRRVEESDIEKLTFLKCTLKETLRLHPPIPLLLHETAEDTEIDGYFVPKKSRVMINA FAIGRDKNSWVDPETFRPSRFLEPGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALELAV AHILHCFTWKLPDGMKPSELDMSDVFGLTAPKATRLYAVPSTRLICSV SEQ ID No: 15 >Brassica_Bo7g117840 MESSVSQTLSQVLDPTTAILIVVSLFIFIGLITRRRRSYPPGPRGWPIIGNMLMM DQLTHRGLANLAKKYGGLCHLRMGFLHMYAVSSPDVARQVLQVQDSIFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKVCVMKVFSRKRAESWASVRDEVDKMIRSVSSNV GKSINVGEQIFALTRNITYRAAFGSACEKGQDEFIRILQEFSKLFGAFNVADFIPYGWIDP QGINKRLVKARNDLDGFIDDIIDEHMKKKENQNTVDDGYVGDTDMVDDLLAFYSEEAK LVSETTDLQNSIKLTRDNIKAIIMDVMFGGTETVASAIEWALTELLRSPEDLKRVQQELA EVVGLDRRVEESDIEKLTFLKCTLKETLRLHPPIPLLLHETAEDTEIDGYFVPKRSRVMIN AFAIGRDPKSWPDAETFRPSRFLEPGVADFKGSNFEFIPFGSGRRSCPGMQLGLYALELA VAHILHCFTWKLPDGMKPSELDMNDVFGLTAPKATRLFAVPSTRLICAV SEQ ID No: 16 >Brassica_Bo7g119430 MDCLLCSPILYVVLIFLWYLVRVLLTRSNPFPPGPKGYPIIGNMKLKNQLNHR GLAELAKQYGGLLHLQMGRIHIVAASTAEMAREILQVQDVVFANRPANVAISYLTYNR ADMAFANYGPLWRQMRKVCVMKLFSRKRAESWASVRDEINTMVQTLTKQTGSPVNV GELVFALTRNITYRAAFGSFARDGQDEFVKILQEFSKLFGAFDITEFLPWMKWFSNRDFS KRLENARKSLDGFIDRIIDAHIEKKNSRKQDDDGLEDDMVDELMAFYSGESGENGGKSN DSLSSFKLTRDNIKALVMDVMFGGTETVASAIEWAMTELMKNPHELVKLQQELADVIG LNREFHESDLENLPYFRCAMKETLRLHPPIPLLLHEAAADSVVSGYSIPRDSRVMINVYAI GRDGSVWTEPDAFRPGRFMDSKAPDFKGSDFEFLPFGSGRRSCPGMQLGLYAMELAVA HMLHSFDWELPEGGSSDDLDMTDMFGLTAPRATRLIAVPSYRLKCPMVI SEQ ID No: 17 >Brassica_Bo3g093960 MESLLSQTLNQVIDPTPSVLLITISLLVVVYLISQWFKPLYPPGPKGLPVIGNM LMMDQLTHHGLAKLAHKYGGLFHLRMGFRHVFAITSPDVARQVLQVQDISFSNRPVNV AINYLTYDLADMAFAPYGPFWREMRKVCVMKVFSRKRTESWASVREEVNNMVRSFSS NVGKPVNVGELIFTLTRNITYRAAFGAACETEQDEFIRILQEFSKLFGAFNIADFIPFLGWF DFQGINKRLVKARNDLDGFIDEVIDEHMKKRETVNVDEDTDMVDDLLAFYSEDSSTNR NKNTVKLTRDNIKALVMDVMFGGTETMASGIEWALTELLRNPAELKRLQQELTEVVGL DRRVDDTHLEQLTFLKCTLKETMRLHPPIPLILHEAIEDRKLQGFFVPKGSRLMINAFAIA RDPKLWVDPEAFRPSRFMEPGMPDFMGTNFEFIPFGAGRRSCPGMQLGLYAMEVAVAN IIHCFTWKLPDGMKPSELDMSDVMGLTAPRATRLIAVPDTRLICPVYP SEQ ID No: 18 >Brassica_XP_013607401.1 MYTLMTLILLVPLLLFLFRHLLSRRLRQRKPYPPGPKGLPIIGNILMMNQFNHR GLAKLSRTYGGLLHLRLGISHLFVVSSPQIARQVLQVQDHVFSNRPTTIAIRYLTYGQSD LAFCNYGPFWRRMRKLYVMMLFSRKRAESWASVDEEVHKAVRSVAANVGKPLNVCK VAFSLTRDITFRAAFGSSSSSSNEGRLDEFLEIIQEFSKLFGEFNVADYVPSWLSWIDPQGI NKRVEKARKSLDCFIESIINDHLDKKKTEKNVNVDEVTDMVDQLLAFYKEEVKVKDSE TKINLDNIKGIIMDVMFGGTETVALAIEWVLTELLRSPENMKRVQDELATVVGLERWSV EDTHLEKLSFLKCVLKDTLRLHPPFPLLLHETVEEAEVSGYFIPKGSRVMVXTYALGRDP ASWSDPEIFNPSRFLDPGAPDLKGNSFEFIPFGSGRRSCPGMQLGMYAFELAVAHLLHCF TWRLPDGVKFGDVDTIEGPGLTVAKANSLVAVPIKRLLCPMVLESHNV SEQ ID No: 19 >Eggplant_c18725_g1_i1|m.19489 MKEMVQKNINSILEALQANPMLLFLFIIPLFFLYLFSTSSRRRYPPGPRGWPLIG NMMIMDQLTHRGLAKLAEKYGGVMHLKMGYIHKIVISGPEEARQVLQVQDNIYSNRPA TVAISYLTYDRADMAFADYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDSLIKIVT TNAGTSVNLGELVFGLTRDIIYRAAFGTSSAEGQEEFIKILQEFSKLFGAFNMVDFIPWLG WIGQQGLNVRLANARASLDGFIDSIIDDHIERKKANVTIDNGDRETDMVDELLAFYSEEA TVNESEDNLQNAIRLTRDNIKAIIMDVMFGGTETVASAIEWVMAELVKNPEELKKVQQE LANVVGLNRRVEESDLEKLTYLKCCLKETLRLHPPIPLLLHETAEESTIFGYHIPAGSHVV INSFAIGRDKNSWEDADSYKPSRFLKQGVPDFKGGNFEFLPFGSGRRSCPGMQLGLYAL EMAVAHLLHCFTWELPDGMKPSELKMDDTFGLTAPLANRLVVVPSPRLLCTLY SEQ ID No: 20 >Eggplant_sm_67_3_v1_EVM1128231_ MKEIIQNNTFFILTTKETNLMMPLYFIFPIFIFFFFTISRLNKKNFPPGPKGWPIIG NMMMMDQLTHHGLAKLAKKYGGILHLQMGYLQMTVVSSPAEAREVLQLQDTIFANRP TTIAVEYLSYARADMAFANYGPFWRQMRKLCVMKLFSRKRAESWDSIRDEVESMTMA VATRVGSSVNIGELVFGVAKNIIYRAAFGTCSNRGQDELLNIMQEFSKLFGAFNLADFIP WLGWVDPQGLNKMIIKARASLDGFIDTIIDDHIQRKKTNNYNDEGNNNDMVDELLAFY GEKTKLNDSDDLTNALRLTRDNIKSIIMDIMFGATETVASAIEWAMAELMKSPEDLKMV QQELANVVGLHRKVEEMDFEKLIFLKCCIKETLRLRPPIPLLVHESVEDTTINNYYIPAKS RVIVNAWAIGRDKNSWDDPESFKPSRFLKEGVADFKGGDFEFLPFGSGRRSCPGMQMG LYAFEMTLAHLLHCFNWELPNGMKPSDIDMNDVFGLTVPKATRLVAVPTPRLLCQLY SEQ ID No: 21 >Potato_XP_006340697.1 MKEMVLNNINSTLEALQAQPMLLFFFIIPLFFLYLFSTSRRKRYPPGPLGWPLI GNMMMMDQLTHRGLAKLAQKYGGVFHLKMGYVHKIVISGPEEARQVLQVQDNIYSN RPKTVAISYLTYDRADMAFADYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDSM VKIVTTNTGTSINLGELVFCLTRNIIYRAAFGTSSDEGQDDFIKILQEFSKLFGAFNMADFI PWLRWIGQQGLNVRLAKARASLDGFIDSIIDDHIERKKANVINDDGYRESDMVDELLAF YSEETKVNESEDLQNSIRLTRDNIKAIIMDVMFGGTETVASAIEWAMAELMKSPEDLKK VQQELANVVGLNRKVDESDFEKLTYLKCCLKETLRLHPPIPLLLHETAEESTVSGYYIPA KSHVIINSFAIGRDKNSWEDPDSFKPSRFLKEGVPDFKGGNFEFLPFGSGRRSCPGMQLG LYALEMAVAHLLHCFTWELPDGMKPSELKMDDIFGLTAPLANRLVAVPTPRLLCNY SEQ ID No: 22 >Apple_XP_008372753.1 MDYLLQSLQPLQSMTPLLLIIPLLFLLPLIFRFRRPPPYPPGPKGLPLIGNMLLM DQLTHRGLAKLAKKYGGIFHLRMGFLHMVAISNPDVARQVLQVQDNIFSNRPATIAISY LTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWESVRDEVDSSVRTVTVHVG SAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFIGILQEFSKLFGAFNIADFIPSLGWVDPQ GLNNRLAKARESLDRFIDTIIDDHMEKKRNGKGVSDGETDMVDELLAFYSEEAKVYESE DNLQNAIKLTRDNIKAIIMDVMFGGTXTVASAIEWAMSELMKSPEDLKRVQQELADVV GLDRRPEETDFEKLTYLKCALKETLRLHPPIPLLLHETSEDAVVAGYRIPKRSRVMINAW AIGRDKDSWEDAESFKPSRFLKEGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEMAV AHLLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLIAVPSKRVVCPL SEQ ID No: 23 >Apple_XP_008337913.1 MDSLLQSLQPLKSMTPLVFIIPLLFLLPLIFCFRRRPPYPPGPKGLPLFGNMLM MDQLTHRGLAKLAKQYGGIFHLRMGFLHMVAISNPDVARQVLQVQDNIFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKLCVMKIFSRKRAESWESVRDEVDTAVRTVTVHV GSAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFIGILQEFSKLFGAFNIADFIPSLGWVDP QGLNNRLAKARESLDRFIDTIIDDHMEKKKKNNKGLNDGETDMVDDLLAFYSEEAKVN ESEDNLQNAIKLTRDNIKAIIMDVMFGGTETVASAIEWAMSELMKNPEDLKRVQQELLN VVGLDRRPEEADFEKLTYLKCALKETLRLHPPIPLLLHETSEDAVVAGYHIPKKSRVMIN AWAIGRDKDSWEDPESFKPSRFLKEGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEM AVAHMLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLVAVPSKRVVCPL SEQ ID No: 24 >Apple_XP_008391587.1 MELLHQALQSLQSSPMLLILLLLLLIISFIFLFNSRRKPPYPPGPKGWPIIGNML MTDQLTHRGLAHLAKQYGGLLHLQMGVIHVMAVSTPDMAREILQSQDSLFANRPANV AISYLTYDRADMAFANYGPFWRRMRKICVINLFSRKRAESWASVREEVDEMVQTVAG KTGSPVNIGQLVFALTRNITYRAAFGSSSHEGQGEFVQILQEFSKLFGAFNMQDFLPWLG WVHAQGFQDRMARARKSLDVFIDKIIDDHMAKRKANMEKDDSEAADTDMVDELIAYF SDDAGKEGDDPNSGFKLTRDNIKALIMDVMFGGTETVASVIEWTMAELMKSPEDLKRV QQELTDVVGLNRRLQETDLENLTYLKCAVKESLRLHPPIPLLLHETVEDTSVAGYSFPAG SRVWINAWAIARDPTAWDEPETFKPSRFLEDSSPDFKGSNFEFIPFGSGRRSCPGMALGL YGLEMAVAHLLHCFAWELPGGMKPSELDMNDVFGLTAPKAVQLVAVPTYRLNCPL SEQ ID No: 25 >Pear_XP_009378215.1 MDSLLQSLQALQSMTPLLLIIPLLFLLPLIFRFRRPPPYPPGPKGLPLIGNMLLM DQLTHRGLAKLAKKYGGIFHLRMGFLHMVAISNPDVARQVLQVQDNIFSNRPATIAISY LTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWESVRDEVDSAVRTVTVHVG SAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFIGILQEFSKLFGAFNIADFIPSLGWVDPQ GLNNRLAKARESLDRFIDTIIDDHMEKKRNGKGVSDSETDMVDELLAFYSEEAKVNESE DNLQSAIKLTRDNIKAIIMDVMFGGTETVASAIEWAMSELMKSPEDLKRVQQELADVVG LDRRPEETDFEKLTYLKCALKETLRLHPPIPLLLHETSEDAVVAGYRIPKRSRVMINAWA IGRDKDSWEDAESFKPSRFLKEGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEMAVA HLLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLIAVPSKRVVCPL SEQ ID No: 26 >Pear_XP_009338655.1 MDSLLQSLQPLQSMTPLLLIIPLLFLLPLIFRFRRPPPYPPGPKGLPLIGNMLLM DQLTHRGLAKLAKKYGGIFHLRMGFLHMVAISSPDVARQVLQVQDNIFSNRPATIAISY LTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWESVRDEVDSAVRTVTVHVG SAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFIGILQEFSKLFGAFNIADFIPSLGWVDPQ GLNNRLAKARESLDRFIDTIIDDHMEKNRNGKGVSDSETDMVDELLAFYSEEAKVNESE DNLQSAIKLTRDNIKAIIMDVMFGGTETVASMEWAMSELMKSPEDLKRVQQELADVVG LDRRPEETDFEKLTYLKCALKETLRLHPPIPLLLHETSEDAVVAGYRIPKRSRVMINAWA IGRDKDSWEDAESFKPSRFLKEGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEMAVA HLLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLIAVPSKRVVCPL SEQ ID No: 27 >Pear_AGR44939.1 MDSLLQSLQPLKSMTPLVFIIPLLFLLPLIFRFRRLPPYPPGPKGLPLIGNMLMM DQLTHRGLAKLAKQYGGIFHLRMGFLHMVAVSNPDVARQVLQVQDNIFSNRPATIAISY LTYDRADMAFAYYGPFWRQMRKLCVMKLFSRKRAESWESVRDEVDSAVRTVTVHVG SAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFTAILQEFSKLFGAFNIADFIPSLGWVDPQ GLNNRLAKARESLDRFIDTIIDDHMEKKKNNKGLNDGETDMVDELLAFYSEEAKVNESE DNLQSAIKLTRDNIKAIIMDVMFGGTETVASMEWAMSELMKSPEDLKRVQQELADVVG LDRRPEETDFEKLTYLKCALKETLRLRPPIPLLLHETSEDAVVAGYRIPKRSRVMINAWAI GRDKDSWEDAESFKPSRFLKEGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEMAVAH LLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLIAVPSKRVVCPL SEQ ID No: 28 >Pear_XP_009346304.1 MDSLLQSLQPFTSMTPLVFIIPLLFLLPLIFRFRRLPPYPPGPKGLPLIGNMLMM DQLTHRGLAKLAKQYGGIFHLRMGFLHMVAVSNPDVARQVLQVQDNIFSNRPATIAISY LTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWESVRDEVDTAVRTVTVHVG SAVNIGELVFSLTKNIIYRAAFGTSSQEGQDEFTAILQEFSKLFGAFNIADFIPSLGWVDPQ GLNNRLAKARESLDRFIDTIIDDHMEKKKNNNKGLNDGETDMVDDLLAFYSEEAKVNE SEDNLQNAIKLTRDNIKAIIMDVMFGGTETVASAIEWAMSELMKSPEDLKRVQQELFNV VGLDRRPEEADFEKLTYLKCALKETLRLHPPIPLLLHETSEDAVVSGYHIPKQSRVMINA WAIGRDKDSWEDPESFKPSRFLKDGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALEMA VAHMLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLVAVPSKRVVCPL SEQ ID No: 29 >Pear_XP_009378429.1 MELLRQALQSLQSSPMLLILLLLLVISLIFLFNSRRKLPYPPGPKGWPIIGNML MTDQLTHRGLAHLAKQYGGLLHLQMGAIHVIAVSTPDTAREILQVQDSSFANRPANIAL SYLTYDRADMAFANYGPFWRRMRKICVINLFSRKRAESWASVREEVNEMVQTVAGKT GSPVNIGQLVFALTRNITYRAAFGSRSHEGQGEFVKILQEFSKLFGAFNMQDFLPWLGW VHAQGFQDRMARARKSLDVFIDKIIDDHMAKRKANTENKDDSEAADTDMVDELIAYFS DDAGKEGDDPNSGFKLTRDNIKALIMDVMFGGTETVASVIEWTMAELMKSPEDLKRVQ QELTDVVGLNRRLQETDLENLTYLKCAVKESLRLHPPIPLLLHETVEDTSVAGYSFPAGS RVWINAWAIARDPTAWDEPETFKPSRFLDDGSPDFKGSNFEFIPFGSGRRSCPGMALGLY GLEMAVAHLLHCFAWELPGGMKPSELDMNDVFGLTAPKAVQLVAVPTYRLNCPL SEQ ID No: 30 >Peach_XP_007199246.1 MDDLLLHQALESLQSSPMLFILLFLLIISWFVLFMSRRKLPYPPGPRGWPIIGN MLMMDQLTHRGLAQLAKQYGGLLHLQMGVLHIMVVSSPKVAREILQVQDSSFANRPA NAAISYLTYDRADMAFANYGPFWRRMRKICVINLFSRKRAESWASVREEVEEMVRHVA TKTSSPVNIGQLVFTLTKNITYRAAFGSSSHEGQGEFVKILQEFSKLFGAFNMQDFLPWL GWVHAQAFKDRMAKARRSLDVFIDKIIDDHMAKRNTNKAKKDDNEAETDMVDELIAF FSDDAAKESDDPNSTFRLTRDNIKAIIMDVMFGGTETVASVIEWTMAELMKSPEDLQKV QQELINVVGLNRRVQETDLENLTYLKCAVKESLRLHPPIPLLLHETAEETSVAGYSFPVG SRVYINAWAIARDPTAWDEPETFKPSRFLKDGSPDFKGSDFEFLPFGSGRRSCPGMQLGL YGLEMAVAHLLHCFAWELPEGMKPNELDMNDVFGLTAPKAVQLVAVPSYRLNCPL SEQ ID No: 31 >Peach_XP_007203643.1 MDSLLQALQPLQPMTLFFIIPFLFLSGLVFLYRSRRRSPYPPGPTGLPIIGNMLM MDQLTHRGLAKLAKQYGGIFHLRMGFLHMVGISNPDVARQVLQVQDNIFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWDAVRDEVDTAVRTVAVQ AGSAVNIGELVFSLTKNIIYRAAFGTSSEEGQDEFIGILQEFSKLFGAFNIADFIPCLGWVD PQGLNNRLARARQSLDRFIDSIIDDHIQKKKKKKSEGSNGGETDMVDELLAFYSDEAKV NESDDNLQNAINLTRDNIKAIIMDVMFGGTETVASAIEWAMAELMRNPEELKRVQQEL ADVVGLDRRPEEGDFEKLTYLKCALKETLRLHPPIPLLLHETAEDAEVAGYHIPKKSRV MINSWAIGRDKDSWEDAESFKPSRFLKEGVPDFKGSNFEFLPFGSGRRSCPGMQLGLYS LELAVGHLLHCFTWELPDGMKPSELDMNDVFGLTAPRASRLIAVPSKRVVCPL SEQ ID No: 32 >Banana_XP_009384541.1 MEWSEEVTPLHFMVCFALPLVLLYVVATRRRGKLPFPPGPPQLPVIGNMLM MDQLTHRGLAKLGEHYGGLCHLRLGFLHAFAVSTPEIARQVLQVQDNVFSNRPATIAIS YLTYNRADMAFAHYGPFWRQMRKLCVMKLFSKKRAESWASVREEVDVAVRSLADRA GSAVNVGELLFNLTKNIIFRAAFGTQSHENQNEFISILQEFSKLFGSFNIGDFIPWLSWMD PQGINKRLKVARASLDRFIDKIIDEHMANRKEADASDADMVDDMLAFLDESGYRCQAG ERDDLQGTLKLTRNNIKAIIMDVMFGGTETVASAIEWAMAELMKSPEDMKRVQQELAH VVGLDRKVHESDLDKLSFLKCVTKETLRLHPPIPLLLHETAEDCEVAGYTVPARSRVMI NVWAIGRDKSSWEDADAFRPSRFTPGGCAASLDFKGNYFEFLPFGSGRRSCPGMQLGL HALELAVAQLIHCFTWTLPDGMKPSELDMGDVFGLTAPRAVRLAAVPAPRLSCPLY SEQ ID No: 33 >Banana_XP_009384087.1 MEWLEEVTSMRFVVCVVVPVTLLLAASTRWRRKLPFPPGPTPLPIVGNMLM MGQLTHRGLAKLSERFGGLCHLRLGFVHVFAVSTSEIARQVLQVQDAVFSNRFATIAIT YLTYDRADMAFAHYGPFWRQMRKLCVMKLFSKKRAVSWASVREEVDAAVRAVTDG AGAAVNLGELMFNLTKNITFRAAFGTQSHENQEEFIAILQEFSLLFGAFNIGDFIPWVSW MDLQGINKRFKVAREALDGFIDKIIEEHMANPKEADAEDSDMVDEMLAFFEESRDRTKE NEADELQRTLRLTRNNIKAIIMDVMFGGTETVASAIEWAMAELMKNPEDMIRRVQEELA SVVGLHRKVRESDLDKLPHLKCAVKETLRLHPPIPILLHETAEDCQLTGYAVPARSRIMI NVWAIGRDKSAWEDAEVFRPSRFAPGGEAAALDFKGGCFEFLPFGSGRRSCPGMQLGL HALELAVAQLTHCFSWELPDGMKPGELDMGDMFGLTAPRAVRLVAVPTPRLTCPLY SEQ ID No: 34 >Banana_XP_009411495.1 MVWVEEVTSMHLILLCLMLPLTLLLIVNIAARRRRRLPLPPGPTPLPIIGNMLL MNQLTHRGLARLAKLYGGLLHLRLGFVHHFVVSTPDVARQVLQVQDSVFSDRPATTAI VYLTYNRSDLAFAQCGPYWRQMRKLCVTKLFSRKHAESWLSIPEEVDAAVCTVAKHA GSAFNVRDLAFTLTKNIVFRSAFGKRSDENQEEYIAVVQEIATLLGAFSVGDFIPWLSWM DPQGINKRLRVARATLDLFIDRIIDEHMATDAANADMVGVMLAFLEESSHEIHRQEEGD DLKGTLRLSRANIRAVMMDVMFGGTETVAIAIEWALADLLTSPDDLKRVQEELAMVVG LDRKVHESHLDKLSFLKCAIKETLRLHPPFPLLLHQTADHCEVAGYSIPARSPVMINVWA IGRDESAWKDADAYRPSRFAPGGDAAALDFKGNCFEFLPFGSGRRSCPGMQLGMHELE LAVAQLLHCFTWALPDGMKPTELDMGDVFGLSAPKAVPLVAVPTPRLSCPLN SEQ ID No: 35 >Banana_XP_009403617.1 MDWFHQLSFMVASVFIPLALLSFFCMRSGRKLLLPPGPQPLPIIGNMLMMDQ LTHRGLARLAERYGGLFHLRLGSLHAVVVSTPEMARLVLQVQDASFCNRPVTAAIAYL TYDRADMAFANYGPFWRQTRKLCVMKLFSRRRLQSWASVRQEVDSAVRFAARRSGSS VDVGDLAFTLAKNVTFMAAFGAQSHGNQGEFAGILQEYSKLFGEFNISDFLPWLRWMD LQGIDKRLKVARQAIDRYIDVIIDDHLANPKEADAQDADMVDGMLAFLGDSGDTNEGG DLHGDLSLTRSNIKAIIMDVMFGGTETVALGIEWAMAELLKSPEELKRTQQELASVVGL HRKVDDSDLDKLPYLKCAVKEMLRLHPPLPLLQHQATQDCELAGYFIPVGTRVFVNAW GIGRDRDAWKSPNAFRPSRFALGGDAAAFDFRGSCFELLPFGSGRRSCPGMQLGLYVLE LAVAQLLHCFDWSLPAGTKPGDLDMGDVFGLTAPKAVRLMAVPTPRLTCPLL SEQ ID No: 36 >Wheat_A0A077RPS5 MATFAKIAMELLADPLMWLFLASLALVAMQRRRLGSAPFPPGPKPLPVIGNM TLVDQLTHRGLAALAKQFGGLLHLRFGWLHVLAVSTPEYAREVLHAQDGVFSNRPATI AVVYLTYGRDMAFAHNGAYWRQMRKLCVTKIFSRRRAETWLAVREGYGALAREVGR RSGEAVNLGELIFNLTVSVIFRAAFSTCDEDGLIEFTAILQEFSRLLGLFHIGDFFPWLAWV GRRGFNRRLSTARGALDRFIDKIVDEHMRRGKDPADPDADLVDGLLGFLADANPREDA LRFTRDNVKAMIMDMLFGGPETVGSTTEWAMAEMMRSPDELERLQQELADVVGLDRA VEESDLDKLPFLRCVVKEALRMHPPIPVLLHEAAKDCVVGGYSIPRGSRVLVIAWAINR DCGAWKDGDTFRPARFIPGEGEAAGLDLKGSCYEFLPFGSGRRSCPAQGLGQHAVEFA VAQLAHGFNWKLPDGMKPAELDMGDIFGLTASRSTRLYAVPTPRLTCPV SEQ ID No: 37 >Wheat_W5A2I1 MAAYAKVGTEFLKDPLIWLFLASLAFVILQRRRLGSAPFPPGPKPLPVIGNMA LVDQLTHRGLAALAKQYGGLLHLRLGRLHVYAVSTPEYAREVLHVQDAALSNRPATIA VVYLTYGRSDMAFAHNGAYWRQMRKLCVTKIFSRRRAETWLAVREGYGALACAVSR RCGEAVNLGELIFNLTVSVIFRAAFSTRDEDGLDEFIAILQEFSSLLGLFHIGDFFPWLGW VGRRGFNRRLRTARGALDKFIDRIIDEHMKRGKNAADPEADLVDGLLAFLAEANPISGK HREDALRFTRDNAKAMIMDMLFGGPETVGSMTEWAMAEMMRSPDDLRRLQRELANV VGLHRTVDETDLDKLPFLRCVVKEALRMHPPIPLLLHEAAKDCFVGGYSVPKGSRVLV NAWAINRDPGAWKDGDTFRPSRFMPGEGEAAELDLNGGCYEFLPFGSGRRSCPAQGLG QHAVEFAVAQLAHGFNWELPDGMKPAELDMGDIFGLTALRATRLYAVPTPRLTCPM SEQ ID No: 38 >Wheat_W5B6W3 MVGLAKIAMDWLQEPLSWLFVASFVFVVLQRHRQRLRGKAPPLPPGPSPLPI VGNMFMMDQLTHRGLAALARQYGGILHLRLGQVHAVVLSTPEYAQEVLQAQDVAFSN RPATVAAIYLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRRRAGTWLAVRDESAAL VRAVARRSGESVNLGELIFNLTKNVTFRAAFGADAAGDAGKRDEFIAIMQEFSQLFGGS SIGDFIPWLGWVDQGLNVRARTARAALDEFIDKIIDEHMRRGKNPDDVDADMVDDMLA FLPEAKPKKDAGDDLQNSLHLTRDNIKAMIMDVMFGGTETVASGIEWAMTEMMHSPD DLRRLQQELADVVGLDRNVDESDLDKLPFLKCVIKETLRLHPPIPILHHENAEDCVVGG YSVPRGSSVMINVFAIGRDAKVWKDADTFRPSRFMTGEGEAARVDFKGSCFEFLPFGSG RRSCPGMALGIYSLEFAVAQLAHGFSWALPDGMKPSELDMTDIFGLTAPRATRLCAVPT PRLTYPLISDVDATHKGNT SEQ ID No: 39 >Wheat_A0A077RQ37 MVGLTKIAMEWLQDPLSWLFVASVVFVMLQRRRRRGRAPPLPPGPNPLPIVG NMSMMDQLTHRGLTALAKKYGGFLHLRLGKVHAFAVSTPEYAQEVLQVQDAAFSNRP ASLAATYLTYDRADMAFAHHGPFWRQMRKLCVMKLFSRRRPETWLAVRNESAALVR AVARRSGETVNLGELIFNLAKNVTFRAAFGAGAAGDAGKQEEFTAILQEFSKLFVEFCIG DFIPWLSWADPQGINVRLRAARAALDQFIDKIIDEHMKRGRNPDDVDADMVDDMLAFL PEARTKKAAGDRGDDLQNTLRLTRDNIKAMIMDVMFGGTETVASAIEWAMSEMMHCP DDLRRLQQELADTVGLDQNVDESDLDKLPFLKCVIKETLRLHPPIPLLNHENAEDCVVG GYSVPRGSRVMINVFAIGRDASTWKDADAFRPSRFMEGEGEAAGVDFKGGCFEFLPFGS GRRSCPGMALGLYSLELIVAQLAHGFNLALPDGMAPSELDMRDVFGLTVPRATRLCVV PTPRLTCSLVADDDAAHQA SEQ ID No: 40 >Wheat_W5AC21 MVDLSMIDMEWLQEPLSWLFVASVIFVLLQRRRGKAPPLPPGPYSPPIVGNIF MMDQLTHRGFAALAKQYGGLLHLRLGKVHTFAVSTPEYAQQVLQAQDAAFSHRPATI ATTYLTYDRADMVFARYGPFWRQMRKLCVMKLFSRRRPGTWLAVRDESAALVRAVA RRSGEPVNLGDLIFNLSMNVTFRAAFGAEAAGDGDGRKQHEFIAIMQEFSKLFGAFSIGD FIPWLGWADPQGIKVRLRAARTALDEFIDKIIDEHIKRGRNPDDMDADMVDGMLAFLPE AKPDKAAGDDLHHTLRLNRDNIKAIIMDVMFGGTETVASAIEWAMAEMMHSPNDLLQ LQQELADTVGIDRNVDEPDLNKLSFLKCVIKETLRLHPPIPLLHRENAEDCVLGGYSVPQ GSSVNINVFAMGRDTKVWKDADTFRPSRFMEGEGEAAGVDFKGGCFQFLPFGSGRRSC PGMALGLYSLELVIAQLAHGFNWALPNGEKPSVLDMSDIFGLTAPRATRLWVVPTPRLT CPLVVDV SEQ ID No: 41 >Rice_Os03g0112900 MANGVAEYLLMDPWLVLWLVLASMAFALLHLRRRARRGAPPLPPGPRPLPII GNMLMMDQLTHRGLAAMAARYGGLLHLRLGRVHMVVVSSPEHAREVLQVQDGDFSN RPASIAIAYLTYGRADMAFSHYGHFWRQVRKLSAVRLFSRRRAQSWRAVRDESAKLVG AIARRAGEAVDLGELIFGLTKDVIFRAAFGTRDGGGHGELEVLLQEFSKLFGAFNVGDFI PWLAWLDPHGINRRLRAARAALDSVIDRIIDEHVSNPAGDEDADMVDDMLAFLDEAGR DQTGGGGELQGTLRLTRDNIKAIIMDFVFGGTETVASAIEWAMAELLHSPGDLRRLQAE LADVVGLGRGVEEGDLEKLPFLRCVAMETLRLHPPIPLLLHEAAADCVVGGYSVPRGA RVVVNVWSVGRDAGAWKGDAGAFRPARFMAGGEAAGMDLRGGCFELLPFGSGRRAC PAIVLGMYELELVVARLVHAFGWAPPGGVAPEELDMADGFGLTAPRAARLRAVPTPRL TCPM SEQ ID No: 42 >Rice_Os10g0512400 MADMVKFTMEWLQDPLSLAIVVTVAVLIIVIRMQRRRAAPFPPGPKPLPIVGN MAMMDQLTHRGLAALAKEYGGLMHLRLGRLHAFAVSTPEYAREVLQAQDGAFSNRP ATTAIAYLTYDRADMAFAHYGPFWRQMRKLCVVKLFSRRRAETWLAVRDESAALVRA VAASRGEAAVNLGELIFNLTKNVIFRAAFGTRDGEGHDEFTAILQEFSKLFGAFNIGDFIP WLSWADTNGINARLVAARTALDRFIDKIIDEHMERGKNPDDADADMVDDMLAFLAEA KPHAGKAAAAAAGAGDGADDLQNTLRLTRDNIKAIIMDVMFGGTETVASAIEWAMAE MMHSPDDLRRVQEELAAVVGLGRDVAESDLDKLPFLRCVIKETLRLHPPIPILLHETAAD CLVAGYSVPRGSRVMVNVWAIARDRAAWGPDADAFRPSRFAAGAAAEGLDFRGGCFE FLPFGSGRRSCPGMALGLYALELAVARLAHGFNWSLPDGMKPSELDMSDIFGLTAPRAT RLSAVATPRLTCPLY SEQ ID No: 43 >Maize_A0A0B4J2X1 MVTVAKIAMEWLQDPLSWVFLGTLALVVLQLRRRGKAPLPPGPKPLPIVGN MAMMDQLTHRGLAALAERYGGLLHLRLGRLHAFAVSTPEYAREVLQAQDGAFSNRPA TIAIAYLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRRRAETWVAVRDECAALVRAV ASGGGGGGEAVNLGELIFNLTKNVTFRAAFGTRDGEDQEEFTAILQEFSKLFGAFNVVDF LPWLSWMDLQGINRRLRAARSALDRFIDKIIDEHVRRGKNPDDADADMVDDMLAFFAE AKPPKKGPAAAADGDDLHNTLRLTRDNIKAIIMDVMFGGTETVASAIEWAMAEMMHSP DDLRRLQQELADVVGLDRNVNESDLDKLPFLKCVIKETLRLHPPIPLLLHETAGDCVVG GYSVPRGSRVMVNVWAIGRHRASWKDADAFRPSRFTPEGEAAGLDFKGGCFEFLPFGS GRRSCPGTALGLYALELAVAQLAHGFNWSLPDGMKPSELDMGDVFGLTAPRATRLYA VPTPRLNCPLY SEQ ID No: 44 >Maize_B4FWF9 MAAAVANIGMEWLQDPLSWVFLGTVCLVVLQQLRRRRGKAPLPPGPKPLPI VGNMGMMDQLTHRGLAALAETYGGLLHLRLGRLHAFAVSTPEYAREVLQAQDGAFSN RPATAAIAYLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRRRAETWAAVRDECAAL VRAVAVGGGSGGEAVNLGELIFSLTKNVTFRAAFGTRDGEGQEEFTAILQEFSKLFGAFN VGDFLPWLGWMDLQGINRRLRAARSALDRFIDKIIDEHVRRGKSPDDADADMVDDML AFFVEATPGKATGAAAAADGGDDLHNTLRLTRDNIKAIIMDVMFGGTETVASAIEWAM AEMMHSPDDLRRVQQELADVVGLDRNVSESDLDRLPFLRCVIKETLRLHPPIPLLLHET ADDCVVAGYSVPRGSRVMVNVWAIGRHRASWKDADAFRPSRFAAPEGEAAGLDFKG GCFEFLPFGSGRRSCPGMALGLYALELAVAQLAHAFNWSLPDGMKPSEMDMGDIFGLT APRATRLYAVPTPRLNCPLY SEQ ID No: 45 >Soybean_G3E7M3 MANLDLDPFQTSILILVPIALLVALLSRTRRRAPYPPGPKGLPIIGNMLMMEQL THRGLANLAKHYGGIFHLRMGFLHMVAISDPVAARQVLQVQDNIFSNRPATIAISYLTY DRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWQSVRDEVDAAVRAVASSVGKPV NIGELVFNLTKNIIYRAAFGSSSQEGQDEFIKILQEFSKLFGAFNIADFIPYLGCVDPQGLN SRLARARGALDSFIDKIIDEHVHKMKNDKSSEIVDGETDMVDELLAFYSEEAKLNNESD DLQNSIRLTKDNIKAIIMDVMFGGTETVASAIEWAMAELMRSPEDQKRVQQELADVVG LDRRAEESDFEKLTYLKCALKETLRLHPPIPLLLHETAEDATVGGYFVPRKARVMINAW AIGRDKNSWEEPETFKPARFLKPGVPDFKGSNFEFIPFGSGRRSCPGMVLGLYALELAVA HLLHCFTWELPDGMKPSEMDMGDVFGLTAPRSTRLIAVPTKRVVCPLF SEQ ID No: 46 >Soybean_I1J8P0 MANLDLDPFQTSILILVPIALLVALLSRTRRRAPYPPGPKGLPIIGNMLMMEQL THRGLANLAKHYGGIFHLRMGFLHMVAISDPVAARQVLQVQDNIFSNRPATIAISYLTY DRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWQSVRDEVDAAVRAVASSVGKPV NIGELVFNLTKNIIYRAAFGSSSQEGQDEFIKILQEFSKLFGAFNIADFIPYLGCVDPQGLN SRLARARGALDSFIDKIIDEHVHKMKNDKSSEIVDGETDMVDELLAFYSEEAKLNNESD DLQNSIRLTKDNIKAIIMDVMFGGTETVASAIEWAMAELMRSPEDQKRVQQELADVVG LDRRAEESDFEKLTYLKCALKETLRLHPPIPLLLHETAEDATVGGYLVPKKARVMINAW AIGRDKNSWEEPESFKPARFLKPGVPDFKGSNFEFIPFGSGRRSCPGMVLGLYALELAVA HLLHCFTWELPDGMKPSEMDMGDVFGLTAPRSTRLIAVPTKRVVCPLF SEQ ID No: 47 >Soybean_Q2LAL3 MDWQSMMGNLDPFQRTILILVPLTLLLLLLLSRTRPRPPYPPGPKGFPIIGNMF MMDQLTHRGLANLAKHYGGIFHLRMGFLHMVAISDPDAARQVLQVQDNIFSNRPATIA ISYLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWQSVRDEVDAAVRAVASS VGKPVNIGELVFNLTKNIIYRAAFGSSSQEGQDEFIKILQEFSKLFGAFNIADFIPYLGCVD PQGLNSRLARARGALDSFIDKIIDEHVHKMKNDKSSEIVDGETDMVDELLAFYSEEAKL NNESDDLQNSIRLTKDNIKAIIMDVMFGGTETVASAIEWAMAELMRSPEDQKRVQQELA DVVGLDRRAEESDFEKLTYLKCALKETLRLHPPIPLLLHETAEDATVGGYFVPRKARVM INAWAIGRDKNSWEEPETFKPARFLKPGVPDFKGSNFEFIPFGSGRRSCPGMVLGLYALE LAVAHLLHCFTWELPDGMKPSEMDMGDVFGLTAPRSTRLIAVPTKRVVCPLF SEQ ID No: 48 >Soybean_K7MH28 MDLLLELKTALEPFRETLLFTIPLTLLLLGIVSRIRRKTAPYPPGPKGLPLIGNM NIMNQLTHKGLANLAKQYGGVLHLRIGFLHMVAISNAEAAREVLQVQDNIFSNRPATIA ISYLTYDRADMAFAHYGPFWRQMRKICVMKLFSRKRAESWNTVRDEVDFIIRSVTNNL GSPVNVGELVFNLTKNIIYRAAFGSSSQEGQDEFISILQEFSKLFGAFNVADFVPFLGWVD PQGLNKRLVKARASLDSFIDKIIDEHVQKRRSGHDGDEESDMVDELLNFYSHEAKLNDE SDELLNSISLTRDNIKAIIMDVMFGGTETVASGIEWAMAELMRSPDDLRRVQQELADVV GLDRRVEESDLEKLVYLKCAVKETLRLHPPIPLLLHETAEDAAVCGYHVPKGSRVMINA WAIGRDKSAWEDAEAFKPSRFLNPHVPDFKGSNFEFIPFGSGRRSCPGMQLGLYTLELA MAHLLHCFTWELPDGMKPSELDTSDVFGLTAPRASRLVAVPFKRVLCPL SEQ ID No: 49 >Soybean_IlLHY5 MDWQSMMGNLDPFQRTILILVPLTLLLLLLLSRTRPRPPYPPGPKGFPIIGNMF MMDQLTHRGLANLAKHYGGIFHLRMGFLHMVAISDPDAARQVLQVQDNIFSNRPATIA ISYLTYDRADMAFAHYGPFWRQMRKLCVMKLFSRKRAESWQSVRDEVDSAVRAVANS VGKPVNIGELVFNLTKNIIYRAAFGSSSQEGQDDFIKILQEFSKLFGAFNIADFIPYLGRVD PQGLNSRLARARGALDSFIDKIIDEHVQKKNNYQSSEIGDGETDMVDELLAFYGEEAKL NNESDDNLQNSIRLTKDNIKAIIMDVMFGGTETVASAIEWVMSELMRSPEDQKRVQQEL ADVVGLDRRVEESDFEKLTYLKCALKETLRLHPPIPLLLHETAEDATVGGYFVPRKARV MINAWAIGRDKNSWEEPETFKPARFLKPGVPDFKGSNFEFIPFGSGRRSCPGMVLGLYA LELAVAHLLHCFTWELPDGMKPSEMDMGDVFGLTAPRSTRLIAVPTKRVVCPLF SEQ ID No: 50 >Artichoke_KVI02897.1 MDVLQLQGLLHPMPILFYVALPLLTFFLLSSFRRKPLPPGPRGWPLIGNMLM MDQLTHRGLASLADKYGGLLHLKMGFSHTVAVSSPEMARQVLQVQDNVFANRPATIAI TYLTYDREDMAFANYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVVSMIKITAASS GSAVNLGELVFGLTHDIIYRAAFGSISHEGKEEFIRILQEYTKLFGAFNLADFIPWLGFIDP AGLNTRLPKARGELDGFIDKIIDEHLRKEKKTGDDADNDMVDEMLAFYSEEGKVNEGE DLQNAIRLTRNNIKAIIMDVMFGGTETVASAIEWALTELMHTPEALKRAQQELADVVGL DRRVEESDFEKLTYFKCIIKETLRLHPPIPVLLHQSSEATEVAGYHIPKGTRVMVNAYAIN RDKNAWKDPNTFNPSRFLENGAPDFKGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVA HLLHSFTWQLPDGMKPSEIDMTDVFGLTAPKATRLVAVPTPRLLCPLY SEQ ID No: 51 >Artichoke_KVH92322.1 MDSIQIPISIYVIIALLTFSFLAWLRRKNLPPGPMGWPVIGNMLMMDQLTHRG LARLAEKYGGILHLKMGFRHTIAVSSPEIARQILQVQDNIFANRPATIAITYLTYDRVDM AFADYGPFWRQMRKLCVMKLFSRKRAESWDSVRDEVDSMVTTTATNSGLPVNLGELV FGLTHDIIYRAAFGSTSHEGKEEFIRILQEYTKLFGAFNLADFIPWLGFIDPAGLNTRLPAA RAALDGFIDKIIDQHLAKEKKVGDENVDNDMVDEMLAFYSEEGKTNEAEDLQNAIKLT RDNIKAIIMDVMFGGTETVASAIEWAMTELMHTPEALKLVQQELTNVVGLDRRVEESD FEKLPYFKCVIKETLRLHPPIPVLLHQSSEATEVSGYHIPKGTRVMVNSYAINRDKNAWT DPNTFNPSRFLQNGAPDFRGSNYEFLPFGSGRRSCPGMQLGLYAMEMAVVHLLHCFNW ELPDGMKPSEIDMGDVFGLTAPKAIRLVAVPTPRLLCPLY SEQ ID No: 52 >Radish_GSRAST00026355001 MESSISQTLGQVLDPTTGILIVVSIFIFIGLITRRRRPPYPPGPRGWPIIGNMSMM DQLTHRGLANLAKKYGGLCHLRMGFLHMYAVSSPDVAKQVLQVQDSVFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKVCVMKVFSRKRAESWASVRDEVDKMIRSVSNNV GKSINVGEQIFALTRNITYRAAFGSACEKGQDEFIRILQEFSKLFGAFNVADFIPYFGWIDP QGINKRLVKARNDLDGFIDDIIDEHMKKKENQNTADDGEVVDTDMVDDLLAFYSEEAK LVSEATELQNSIKLTRDNIKAIIMDVMFGGTETVASAIEWALTELLRSPEDLKRVQQELA EVVGLDRHVEESDIEKLTFLKCTLKETLRLHPPIPLLLHETAEDTEIDGYFVPKKSRVMIN AFAIGRDKNSWVDPETFRPSRFLEPGVPDFKGSNFEFIPFGSGRRSCPGMQLGLYALELA VAHILHCFTWKLPDGMKPSELDMSDVFGLTAPKATRLYAVPSTRLICAV SEQ ID No: 53 >Radish_GSRAST00007419001 MESSVSQTLSQVFDPTTTILIVVSVFIFIDLITRRRRSYPPGPRGWPIIGNMLMM DQLTHRGLANLAKKYGGLCHLRMGFLHMYAVSSPDVARQVLQVQDSIFSNRPATIAIS YLTYDRADMAFAHYGPFWRQMRKVCVMKVFSRKRAESWASVRDEVDKMIRSVSSNV GKSINVGEQIFALTRNITYRAAFGSACEKGQDEFIRILQEFSKLFGAFNVADFIPYFGWIDP QGINKRLVKARNDLDGFIDDIIDEHMKKKENQNTVDDGDVDTDMVDDLLAFYSEEAKL VSETTDLQNSIKLTRDNIKAIIMDVMFGGTETVASAIEWALTELLRSPEDLKRVQQELAE VVGLDRHVEESDIEKLTFLKCTLKETLRLHPPIPLLLHETAEDTEIDGYFVPKKSRVMINA FAIGRDPKSWPDAETFRPSRFLEPGVADFKGSNFEFIPFGSGRRSCPGMQLGLYALELAV AHILHCFTWKLPDGMKPSELDMNDVFGLTAPRATRLFAVPSTRLICAV SEQ ID No: 54 >Radish_GSRAST00001088001 MESLLSQNLNHVIDPIPSALLITISLLVVVYLISQWLKPLYPPGPKGLPVIGNML MVNQLTHHGLAKLANRYGGLFHLRMGFRHVFAITSPDVARQVLQVQDISFSNRPVTVA INYLTYDLADMAFAPYGPFWRQMRKVCVMKVFSRKRAESWASVREEVNNMVRSLSSN DVGKPVNVGDLIFTLTRNITYRAAFGAACETEQDEFIRILQEFSKLFGAFNIADFIPFLGW LDLQGINKRLVKARNDLDGFIDEVIDEHMKKRETINGDEDTDMVDDLLAFYSEDSSPNR SKNAVKLTRDNIKALVMDVMFGGTETMASGIEWALTELLRNPAELKRLQQELTEVVGL DQRVDDTHLEKLTFLKCTLKETMRLHPPIPLILHEAIEDTKLQGFSVPKGSRLMINAFAIA RDPKLWVDPETFRPCRFMEPGMPDFMGTNFEFIPFGAGRRSCPGMQLGLYAMEVAVAN IIHCFTWKLPDGMKPSELDMSDVMGLTAPRATRLIAVPDTRLICSVWP SEQ ID No: 55 >Radish_GSRAST00042054001 MDCLLCSPILYVVLIFLWYLVRVLVTRGNPFPPGPKGYPIIGNMKLKNQLNHR GLAELAKQYGGLLHLQMGKIHIVAASTAEMAREILQVQDVVFANRPANVAISYLTYNR ADMAFANYGPLWRQMRKVCVMKLFSRKRAESWASVRDEINTMVQTLTKQTGSPVNV GELVFALTRNITYRAAFGSFARDGQDEFVKILQEFSKLFGAFDITEFLPWMKWFSNRDFS KRLENARKSLDGFIDRIIDAHIEKKNSRKQEDDGLEDDMVDELMAFYSGENGGKSNDSL STFRLTRDNIKALVMDVMFGGTETVASAIEWAMTELMKNPHELVKLQQELADVIGLNR QFHESDLENLPYFRCAMKETLRLHPPIPLLLHEAAADSVVSGYSIPRDSRVMINVYAIGR DGSVWTEPDAFRPGRFMEDKAPDFKGSDFEFLPFGSGRRSCPGMQLGLYAMELAVAH MLHSFDWKLPEGVSSGDLDMTDMFGLTAPRATRLIAVPSYRLKCPMVI SEQ ID No: 56 >Radish_rs_Aokubi_v1_EVM13601 MYTPMTLILLVPLLLFLYWHLLSRRLRLRKSYPPGPKGLPIIGNILMMNQVNH RGLAKLSRTYGGLLHLRLGLSHLFVVSSPQIARQVLQVQDHVFSNRPTTIAIRYLTYGQS DLAFGNYGPFWRRMRKLYVMMLFSRKRAESWASVDEEVHKAVRFVAANVGKPLNIC KVAFSLTRDITFGAAFGSSSSTSDEGRLDEFLEIIQEFSKLFGEFNVADYVPSWLSWIDPQ GINKRVERARKSLDCFIESIINDHLDKKKTENNVDVDEETDMVDQLLAFYKEEVKVKDS ETKINLNNIKGIIMDVMFGGTETVALAIEWVLTELLRSPENMKRVQEELATVVGLERWS VEDTHLEKLTFLKCVLKETLRLHPPFPLLLHETVEDAEVSGYSIPKGSRVMVNTYALGR NPNSWSDPEIFNPSRELDPGAPDLKGNSFEFIPFGSGRRSCPGMQLGLYAFELAVAHLLH CFTWKLPNGVKPGDVDTIEGPGLTVPKANSLVAVPTTRLLSPIVLESHNV SEQ ID No: 57 >Onion_AC.SP3B.Locus_5396.1.10 MMDMQSILIFTLPFVTLLFLVITSRRRPKLPLPPGPRPLPIIGNLNLIDKLTHRGL AHLANQYGGIFHLKLGSVHTFSISTPEIAKEVLQTQDLAFSNRPATIAITYLTYDRADMAF THYGPFWRQIRKLCVMKLFSRKRAESWASVREEIEKAVSTAAAGAGTVVNVGELVFNL TKNITFRAAFGAKSGEEQDEFLGILQEISKLFGAFNVGDFVPGLRYLDPQGIGRRMRKVR KELDGFIDRIIDEHVQNRKEVDDVEADMVDEMLAFVGQGKSIGRDSDELRLTRNNIKAII MDVMFGGTETVASAIEWAMAELLKSPEDLKRLQQELTSVVGLDRKVQDSDLDKLPYL KCVIKETLRLHPPIPLLLHETAEDCEIQGYSIPKKSRVMINVWAIGRDKSAWKDADQFKP SREVKGGEYEQVDFKGNEFELLPFGAGRRSCPGMQLGLYALDLTVANMAHCFDWELP DGMKPGEMDMSDVFGLTAPRAVRLAAVPSPRLTCRI DNA SEQ ID No: 58 >Lettuce_LsF5H_1_1 GAAATATATTTCATTTTTAGCACATATTTACCACATAAACACAAGAAATC ACACATAACATACAAATGCACATAGATCTTCACAATTTTACTTGTATTCTCCCCCATA AATCATATGAAAACCGAAAATAGAGGGGTATAAACTCACCTTGAGTTTGTGGATTC AGTTTTTGAAGAAGATGTGGAAAGATGAAATGATTTTTCGGCCCTAGCAACTCCCTT GAGTAGATCTCGAACTCAAGAAGATTTCACAAGTATGTATCTTGGAGTGATTCTTGG ATGAAAACCTTCTTGAATGCCCTTAATCTTGAAAATTTTGTAGGAGGAATGAAGGTG TTCTTGAGAGGATTTGGAAGTGAATTAAGTGTGTGTGTGTGTGTGTTTGGTGATCCTC GGTCAAGAGTAGAAGAAGAGATGGGAGGGAGTGACGTGAGTTGACATGCATAGAG ATATGAGAATGGTGCATGGATATCCTATGTACATTTATGAGGTGGCACCACAAACCT CATTTCATCTTTTCTTTTATTTATTTTTATTTTTTTTTTGTTTTACTTGGGCCGAAATGG GCTAAGGAAGGATGAAGGAATCACTTTGGCCCATTCTTTCCTTGGCTCGAGTTCATG AGGCCCATAAGGAAAACTTACGGCCCGTTGGGCCCTTAGGGTAGCTCACGACCCAA ATCTTTATATAAGAGAATGGATTTGAGTCCATCAAAGCTAATTGGATTTGTTATGGC CCAATAAGGCCTATTAAAGATAAACTAGTCCATTTTAGGCTTATAAGGCCCAAAAAG GTTAAGTCTCATGAGAGTGGGTCCAATGAGAGCCCATTTAAGAGTTCTAAGCCCAAA ATAGTCAAATTGAAAGCTTATTGGCCCATTAGGCCCAATAAGGAAATTCTAGTTCAT ATATGACTTAAACCGGAATTTCTAGGGTTTTTCAACTTTACTTGATGAATCTAGGTTT GAATGTGTTTCCATAGGTTGAACATCAAGCATAACATGAATTAGGGTTACGAGTTTA CAATAGATAATGTTCCAAGAGTACAGAATTTCCTAGCTAGAATGCTATTTGTGACAT CTGTGCCTAATAGATACTTTGATTTTTAATTATACTTAACTCAAGTAAGTTGAATAAA TATTTTTGTTAATTATAATTTATTGTATTAACTTGAAGCATTTGAATAATAGAAAATA TTTTTGGTTTCTATACATAAATGTAAGTCATATCGAATAACAAACTTGAGGTAGGAA GATAAAAAATAAATCGAAATTTGCATGAGGAGAACAAAACCAAAACAGAATAATTA AATATTATTAAAAAAAACATGTGAGTGGTTGGTAAAGTAACCAATGGTTAAACTCA AATACTCTCTATTTTAATCTAATAATAAGTAATAACAATGTAAATATTTTACATCTTA ACAAGTGGTACATAAAAGAGAATTATTTCTGACATGTCAGATTAATTTCCAAAATTA CTTGTCTTTGTTCATTTATTATATTTAAAAAAGAATATACTTGACGCAATTAGTGTAA CAAGTTATCCAAAAATCCATTACCACCAAAATCAAAACAAATCTAAACATATTTACT CTTACAATCTAAACATAATCATTAAAAAAACTAAATTAAATAAACAATAACCTAAA CAAATAATTTATCTCATATGATTACAAGAATGTAAAATTAATTGGTCGACCAAGTCA CTTGTGCAGTAGCCAGCAACTAGCAACGTTATGCTGACATACAATTCTATCAGATCT AAGCCGAATAAAAAATCAAACTATATTTATGTGTAAATAATTGACCGGCACTCTACG TCTTTGTCTCAAGACAAAAGAATTAGTCAAACATTTCCTGTAATTCTCATTTTTAATA TTTATAATAAATAAAATAAAAGAAAAAAAAAATAGTAATATCCATACGACTTCCCA CCTTTCAAACAGGGTGTGCCCGTTTATCTTGTATATAAACACCCCTTTATCTCACTCT TTAGGTAGCAACATTCATCCAGTTGCCACTTAAAACCTCCATTTGAATCAAAATGGA ATCACTTCAAATCCCCATAGCATTCTACGCTATAATAGCTATCTTAACTTTCTTCTTT CTTTCATGGGTCCGCCGGAAACCACTCCCGCCGGGGCCAATGGGGTGGCCAATCATC GGCAACATGTTGATGATGGACCAACTTACCCACCGTGGCTTAGCCCGTTTGGCAGAA AAATACGGTGGTATCCTTCATCTAAAGATGGGTTTCAGCCACACCATTGCAGTGTCC TCGCCGGAGATGGCGAGGATAATACTTCAAGAAAAAGATAACATCTTTGCCAACCG TCCGGCAACCATCGCCATCACTTACCTGACTTACAACGGCGTAGATTTGGCTTTTGCT AATTATGGACCTTTCTGGCGACAAATGCGAAAGCTTTGTGTCATGAAGCTGTTCAGC CGGAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGGACACCATGGTGAA AGCCACCGCCATTAACTCCGGTACGCCGGTAAACTTGGGTGAGCTTGTTTTTGGGTT GACCCATGATATTATCTACCGAGCAGCTTTTGGGTCGATTTCACATGAAGGGAAAGA AGAGTTTATCAGAATCCTTCAAGAATACACCAAACTTTTTGGCGCATTCAATTTGGC TGACTTTATCCCGTTCCTCGGGTTTATTGATCCGGCGGGGTTGAACACACGTTTACCG GCGGCCAGGGCGGCGTTGGACGGATTCATTGACAAAATCATCGACGAGCATTTGCG TAAAGGAAAGAAAACCGGCGATGAAGGTTTGGATAACGATATGGTTGATGAGATGT TGGCGTTTTACAGCGAGGAAGGAAAAGTCAACGAAGGTGGTGATTTGCAAAACGCC ATTAACCTTACTCGAGATAACATCAAAGCCATAATCATGGTAAGTAATGAAACCATG AATACATTCTTTTTATAAATCATTATAACATTCCAAATTCTAAAAGTTAATCCAAAAC TTTTGTAGGATGTAATGTTCGGTGGAACTGAGACAGTGGCGTCCGCCATAGAATGGG CCATGACGGAGCTAATGCATACACCGGAGGCACTAAAGCGCGTGCAACAGGAGATG GCAAATGTCGTCGGACTTGACCGGCGCGTGGAGGAGTCTGACTTGGAGAAGCTGAC GTACTTCAAATGCGTCATCAAGGAAACCCTCCGACTACACCCTCCGATCCCAGTTCT CCTCCACCAGTCTTCGGAGGCGACAGAAGTTTCCGGCTACCATATACCTAAAGGAAC ACGTGTCATGGTGAACGCGTATGCTATTAATCGTGATAAGAACTCTTGGGAAGATCC GGATACGTTTAACCCGTCACGTTTTTTACAAAACGGAGCTCCGGATTTTAGAGGAAG CAACTATGAGTTTCTGCCATTTGGTTCTGGTCGGAGGTCGTGTCCGGGGATGCAACT AGGGTTGTATGCGATGGAGATGGCGGTGGCCCACCTTTTGCATTGTTTCACGTGGGA ATTGCCGGATGGAATGAAGCCAAGTGAAATCGACATGGGTGATGTGTTTGGACTCA CAGCACCAAAAGCAATAAGATTGGTAGCAGTGCCAACTCCGCGTTTATTATGCCCAT TGTATTGAAATGGTTTTATCATTTATATGTATTTATATGTAGGTTGCATACGGTTTCA AATTGTATAAGATTAAGATATATAATAACACGGAAATATTTTTCATATCATATATAT GGTATCACCATAAGCCTTATTTGAACTCAATGGGATTGTATCGATCTTTATTTTTAAA ATTCATAGGCTTAAGGCCGGTCCAAGAAAACTTGAAGCCCGGGGCAAAACACAAAA ATGGGATTGTAGGGATTATATGGATCTTTATTGTATGGATCTTTATTTTTAAAATTCA TAAAGATATGTGAAAACTCAGAAACGAACTATATATAAAAAGATATTTGCACCTTTA ATATTCGGTAGTAAAAAAATGTCTCTATTTGTATGTTGTTTCATCCAACACACCTTTA TTACAAAGATATACATCACCAAAACTTACCCTTCAACTTAAGGTTCATAGCTAAACT ATACTTCTGAACTTAAGTTTCTATCAAAAACAAAGAAATAAAAAACTAAAAATGATT GATTTTTCCAAAAGATAACATGATACACAGTGTAGTAGATCATTGCACATTGCATAA ATTGCCAACAAATACTAACGTCTACTTCTATCACATTTTTCTTTTTTCACTTATAGTG CTTTAAAAACCTCTTTCGCTATCATCTATAACAACATCATCATTAATTCATTAACATG CATACCTATAATCATAATTAAAAATACAAAAAACTTGCCTAAAATGAAAATGCATC GGGTTCTTGTTCTAGGTTTGCACTTAAATTCAGCCAAAAATGTAGTATGATCTGAAT ACCATTCACAATCAGAGAAGGTCGGATACTCTAGGGGTGAGCAAAACCGAACCCGG AAACCGAAAAACCGACAAAAACCGGCAAAACCGAAACCGAAAAACCGAAACCGAA GCATAAACCGACGGTTTGGGTTTATATTTTTTGAAAACCGAAAATTTCGGTTTGGGT TGGGTTTTTGGGTTTGGTAAAACCGATAGAAACCGAACCGAACCGATTATATATACT ATTTGTAAAAATATATAATTTATATACAAATATAAATATGTTTATAGAAGTAATGTC AAAAGGATGCGCTGGTTGAGGTGGGTAACGCTCTTGCTTGTGTTTCTGAAGGTTTCA AGTTCGAAACCTGTGGCCAAAATTTTACTTCTTTTATTTTCGCAGCTATATAAACCTA TCCCACATCGACACATGATCGAAACTTTGCTACATATGCTCGCCTACATAAGCTAAA CATACATCCTCTTCAGGTTTATTCAGCTATTAGCTTTGTCCCACATCGCTTGAGGGAT CAAAGTAGAAGCCATTTTCACTTCTATAAAAATGAGGATACGAAATGATAGAAAAA CAGTTTTAGGTTTGGTTTAGTTCAAAAACCGAAACCGAAAACCCGATTTGGAAACCG ATAATCCATAAAACCGAACCCATGGGTTTAGGGTCGGTTAGGGTTCAAATTTTTAGA AACCGATGGTCATCGGTTTGGGTTCGGTTTTAGGGCAAAACCGACCCAAACCGACCC ATGCTCAGCCCTAGGATACTCCTTTGATTCTATACAACACAAAATTCCGAAGCTAAA AAAAAGATTCATAAAAAAAAAATCGTATTTCAAACAAGAATAAAAAATTTCAAGAA GGCTATGATAAACTAGAACTTATAAAGACATATAATCAGTTTCGTCTCAATGTCAAG TATAATCGATTTTGTCTCAATTTAAAGAAGATTTTGAGTCTGAGTTTGTAACACTCGT GTTTCTAGCCTAGACATTTATATCGAGGTGATAGTCTAGGTTAACCTTTGTAACTCAT TTTGAAGAAATAAAAAGAAATTATGTGAATATTATGTGAATTATGTGTTTTATGCTT AATTATTAGGGCTTAATTAATTAAGAATAAAAATAAGCGTCAAAATTAAAGTGTGA GATAAGCCCGATATCTTTACATAAAGTTGTAGTGGTCCAAACAAGGATTTCAGGGAT ATAAAGAATATCAAAATCCGAGTTATAAAGAAGAAGTTATGACCTGTCGAAGTTTC GCGACAAAACCGGCACGGTGCTGAATGTCGTAAAAAGTGAGTTTTTGATAAACTAC TTTTTAGCCTTAGTAATCTAAACGAAAGTCAT SEQ ID No: 59 >Lettuce_LsF5H_2_1 TTTTATTTTGTTTAATTTAATTAATTTTTATTTAGATAAAATAAATGACGAA AATAATATTTTAAAAAAATTCAAAATTTTCATTTATTTTTCATTTTAAAATATATTTTT TTTATCCCTAAAAGGAATGACAACGATTGCGTTCTCATGTCTTACAAAATATAATAA TATCACATGACTGTAACTATATATATATAGTTTTAGGTTATCTGGATAACAAAAAAC CCTAAAGAAAAATCCTAAAAATCATAAAAATGTATGAAAAAAAAAATATTTAAAGA TCACAAATATTTTTTTTGACTTTATATTTTTAAAAGTGGTAACTTTTTATACAATTTTG CTGAATTTTTTTTTGAAAAAAAAAAACCTATGATTTTTAAGAATATAAAGTCAAAAA AAGATTTGTGATCTCTAAGTATTTTTTATACATTATTATGATTTTAAATTTTTTTTCGT TATCCATATAACCTTCTATATATCTATATATATATATATATATANNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNATATATGTGTGTGTGTGTGTGAAAATAGTCAACTTT CCAGGATTAAATATAAAATGATATAAATAAATGCAAACTCATTCAAACAGAGGTGC CGCTGCATCTCATTTCAACCACTGCCCACCCTGTATATATACACATCACTTGATCTTC CTTTACCTAGCAGCGTTTTCTAGTTGCACTTCATTACGCTCATACTCCAATAGACTTA CTGAACCGAAACTCTTTGCCGGAAAATATGGATCCTAAGTCCATCTTACTTTACGTT GTACTCCCTCTCTTAACCTTCTTCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGC CTGGTCCAAGAGGGTGGCCGCTGATCGGTAACATGTTAATGATGGACCAACTCACCC ACCGTGGCCTTGCTCGTTTGGGAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGG GTTTCAGCCATACCGTCGCTGTCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAG TTCAAGACAACATCTTCGCCAACCGCCCGGCCACCATCGCCATTAGTTACCTCACCT ACGACCGGCAAGACATGGCGTTCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTA AGCTTTGCGTCATGAAGCTGTTCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCA GAGACGAAGTTGTCTCCATGGTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTA ACCTTGGAGAGCTTGTTTTCGGGTTAACCCATGATATCATTTACCGAGCAGCTTTCG GGTCTATCTCTCATGAAGGAAAAGAAGAATTCATCAGAATTCTACAAGAATACACA AAGCTTTTTGGTGCTTTCAATTTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACC CTGCCGGACTGAATACCCGTTTACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTG ATAAAATCATCGACGAGCACCTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGA TAATGATATGGTGGATGAGATGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACG AAGGCGAGGATTTGCAGAACGCGATTAGACTCACCCGAAACAATATCAAAGCCATT ATTATGGTAAGTAATTGTTGTTTACATTAATATATAAAAAACAAAACAAAACAAGTT TTCTGAAAATAGTTGTTTTCGTAGTCATTTTGTTGAATACTAACAAAGTCGTAAATAC TTTAGCTACTTCTATACGATACATAAAACAATTTTCTGTTGTTTTTGGGTTTTTTAATA TTCTATCCAATAAAAAAGTATAAAACATATCTATTTGATGTCATGTTCAATAAAAAA AATGTATTAGGTAGAATCCAAAAAGTTGTCAATATTAATTAAGTATTCGAGTTGATC ACACTGGGATATGGATAGAAATTGACTAATTGATTACACATGATTAATTCCAGTCCA ACACACCAATACAATTATGTTCTTATCATTGGTTCACAACTATAGTTCTTTGTTTCAT GTATTTCTTGAACTATATTATTACAATGAATTTATTATGTATTGATTATATCATTGTTT ATATGTAGGATGTAATGTTTGGTGGGACTGAAACTGTTGCTTCTGCTATCGAATGGG CTTTAACTGAGCTAATGCACACCCCAGAATCCTTAAAACGTGCACAACAAGAGCTC GCTGATGTTGTTGGCCTTGATCGTCGTGTAGAAGAATCAGATTTCGAGAAGCTAACT TACTTCAAATGTGTCATCAAAGAAACCTTACGTCTCCACCCTCCGATCCCTGTCCTTT TGCACCAATCATCAGAAGCCACGTCGGTTGCTGGCTACCACATACCTAAAGGGACA CGTGTCATGGTTAACGCATTCGCCATTAATCGTGATAAGAACTCATGGAAGGATCCA CACACGTTCAACCCATCACGTTTCTTGCAAGATGGGGCACCCGACTTTAAAGGAAGC AATTATGAGTTTCTTCCATTTGGATCTGGACGTAGATCATGTCCTGGAATGCAACTTG GATTGTACGCAATGGAGATGGCAGTGGCTCACCTTCTTCATTCATTCACATGGCAGT TGCCTGATGGAATGAAACCAAGTGAGATTGACATGAATGATGTGTTTGGACTCACTG CACCAAAAGCGATTCGACTTGTTGCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTA TTGAGAAACGGCGAAAAGTTTGATATTGTGAAAATTTGTTTATGTTGCATCATGCAT CAAATCAGATTGCTTTTCTTTTACATCTTTCTAGTCATCTTCCATAAAGAAAGATATA CACAAATTGAATAATGCGTAAAGATTATATTTTCATGTACATTTTGAAATGTTCAAA CTCCTTGTGTTTCTTGTGTTCATATTATATTTTCTTCCTCAGAGAATTACACGCATGCT TTGTGTTCATATTTGGGAAAAAAAAAACATATAAGTTTTGCTATCAATGTCATTCCT GGTAAAAATGAATGTTGTTCTTTATGATGTAGCCTAAATGTCAACTTTTTTAGGTTTT TCTCCAACTACAACTGATATGATATGCTGCCTGACGAGTGACTGGGCTTCTTCCAAG TGGGACCTTCCCATTCACAAATTTTTATTATGTTTATTGTCACAATAATGATACTTTT AGTAATATAAATATTACAAATAAATAAACAAACAAATATACATTCTCTCTCTATCAT TAGCATATAGATAAAACCGCAATTACATGCATAAAAAAAATATAAACCGCATTATA TGAACACCGAATTCGACCCGTCAGCTAGAGCCAACGTGCGAATCATGGAAATCAAT AATATTTTGGGCATGTTACGCTTTGAACATTTCACATCTCAACCAATATGTTCCTATC ATTATTATTTTGGGCATGATAATGACTTAGGAGGGTAACTACCTCTTATCTGTGTTCA CATATTGGCAACTTCTTCTTTTTTGTACATAAGAAAGAAACTAACTTGTTTTAACTGT GTAACATCCAAAAAATCATGACCAAAAATTTTGTTTTTAATTTAATACTAAAACCAT AATTGTCAAACCATTAATTTAATACTCCAGCATCGGGCCTCGCCCGACATCAGGCCC CGCCTGGCATCGAGCCCCGCTCGGTATACAAATTTGTCTCTCTTAGGCCCCGCCTGT CTCCGGGCCCCGCCCGCTAAACACATACAATCATCTAACATGCTAACACATAAATCA ACATACTCTACTGTATCCCTGTCCTAAGAAACATACTTTGCTAATAATGAGATACAA AATTTCGTCCGTACCCAACTAGTTCCAGCCAGGGCTTCGGCAGTGCAAGGTGAGTCT CCTCACTCTGTGAATGGGTCTAAGGCCACAATGCCAGCCCATGTAGTCTATGAGTAG GAAGACTCGGGGGGGTTAGCCCTAGGCATTGTTTGCTAGTATCTTATTCTAGACCAA GGACTGATGTCGAGCGAGTGCCTGAGGAATGTTTTCATGTTAGATTATACTTGTTGT ATGTGTGATACTTGTATGTGCCTGGTAAAGAGGTGAGTGTGGGCGAGCTCCCGTATC TCATCACTAACTGAGTACGAACGATGTTCTGTATCTCATTATTACCAGAGTATGTTTC TTAGGACAGGGATACAGTAAAGTATGTTTCTTTATGTGTTAGCATGTTATAGGATTG TATGTGTTTAGCGGGCGGGCCCCGGAGACAGGCGGGGCCTAAGAGAGACATATATG TATACCGAGCGGGGCTCGATGCCCGGCGGGGCCCGATGACGGACGGGGGCNATTAA ATTAATGGTTTGACAATTATGGTTTTAGTATTAAATTAAAAAAGAAATTTTTTGGTCA TGATTTTTGGGATGTTACAAAGTTAAAACAAGTTAGTTGCTTTCTTATATACAAAAA ATAAGAAGTTGTCAATATGTGAACACGGATAAGAGGTAGTTACACTCCTAATTTATT TTCCCTTTGAGTTACCGGTTAAAACAGATATTAGCCGGTAATATTGGTGTAATTTAA ACAGTTAAAACAAGTTAGTTGCTTTATTATGTACAAAAAAGAAGAAGTTGCTAATAC GTGAACATGGATAAGAGGTAGTTACCCTCCTAAGTCATTTTCCTAACATTTCACATC TCAACTAATAGGTTCCTATCATATTACATTATAATATTATATACAAACGTGTATATGT GTTAGTACATGGATAATGACTTAGGAGGGTAATAACGTTTTGTGGTTGTCCATTTTA GGTCCCTAACGTATTTTTTGTGTGTATTACACCATTAAGGTTATTATAACCGTTTACA AATAGTCCTTTTAACAGGAAGAAATCGGTAAAAAGGATTATTTCTATACGGTTATAA CAACCTTAATGGTGTAATACACACAAAAAATACGTTAGTGAC SEQ ID No: 60 >Endive_ce_gene1 CAATACGTCCAACTATTGGCTTCATATCTAATGGATACATTTATTCTCTTTT TTTTCGTGATTTGAGGAGTGCTTTCCTCGTTGCTTTCTTTTTAATCATGCTTCCTTCAT CATCAAATGTAACATTATTCCTACTCTCGCCGTAAATTTCTTCACTTAATCCAATTTC CAAATGTGATTGGTGAGGCTTGAAAGTTTCCCCACAGACAACTATTGGTACATCATC ACATTTCCCGACGTTCTGCATCATCAAAATGAATAAACTTTTCATATTAGAAACCAC AACCATTATTATTTAATAACATAACGCACATTAAAAGTCTGTCTTCAACGCTGTTACT CTTGGTTACCACAACATCGTTAATTGTATTCCCGTCGTCCTACATAATCATTAAGTCA TCAACATGTTAAACTTTTCATATTAGCAAACCACAACCACTATATCACATTGCGTAC CTTGTCAGGATGCTCATTAGAACTTTGACTTTTGGTAACCAGATAATCCATGGAGAA ACTGTCCTGCATTAGAAACAAAATCGAATATAAAGAAATATTTTTATTCATGTGACA ACTTCAATATAAAAATTAGACACCTTGATTACCTCAATATCATCGACAGCTATCTTG CATACATCCTCATCGGACCTTCGCTTACACAGTAGACCCCCCATGTATACCGTATCC TCCAACTACGTAAACTCATAAAACAACATCTGTTATATCTATGTATAAGCAGGAACA TCAACCCAGACAAAATGAAAACCGTTTAGTTCCATGAAAATCGTCAACCTCCCATAC GTGGGTAACTGAAGCCACGACCTGAAGATTCCCCACAAAAAGCAAACCCTCCAAAT AACCGTCACTTCTAAATGTATATGGTGATTTAACACCACTTCTAAACGTATATGGTG ATTTAACACGGTTGAGATTGAAAATTGGGAAGATCGAACGGCCAGAATTATTGGAG AAAAAATAGGACTCGTTAGGAACATTAAAGACATAATTTGACAATCCCTCCGTAATT TTATAACTTTCTAACGTTTTGTTAGCATTATAAATTAAGACGTTCAAACAAAAAAAA GGCACTTTAAAGTAAAGTATTTCTACCGCATGATATTATTTTCCAACATCACCTTTCT TTCTTTGTCGAATATTATATTAAACAAAACAATGTTTATGATATAATCATTCTCTGTT CTATAAAAATAGTTAGTCTTCTATATACTTGATGTGATTAGTGTAGTAATTTATACGA AGAACTATTTTAACCTGTATGAAACAAAAACAATTATGGTTTTTGATGGTGGACTAA TTAACATAATATTTAAATATAGAAAGTTAATAAGCAACAACCTTAACTAAGAAATTA TGTCAATTGAATACATGAACAGAAAATTAATTCGAAGACCAATTCACTTGGTGTAGC AACTAGTAACTAGTAACATTATGCTGACATTTAATCTTATTATATAAAATAAAAAAA TAAAACTCTTTATATGATAATTTAGACCGGCACTCGTTTGCAAGACATAAGAATTAG TCAACATTTCATGCATGTGATTCTCACTTATAATAACACAAAGTAAAAAGGAGTAAA TTGCAAAACTGGTCCTTAAATTTTACTTAGGATTAAAAATTCAGTTAAAAATTTTAA ATTATCACGATGTCGTCCATAAATTTGAATTTTGTTGATATGCTCTTTGGGATTTTCT CAACAGTACACGTTTATTCTTGATTTTAAAGTCATATTATATGTATTCGGAACCATAT TTGCGACAAAATACAAACTTAAAGAATGATATTATTATAAATAATTTGTAAAATTGC AATATTTGGTAAAGCACATGGACATGATTTGTAATTTATATAGTAATATCTATTTGA ATTCCGGCCATTCAAACGGGGTGTGCCCGCTTAACGTGTATATAAACACCCCTTTAT TTCACTCTTTAGGTAGCAACATTCAACCAGTTGCCACTTAACTCTCCATTTGAATCAA TATGGATTATCTTCAAATCCCTATACCAATCTACGCTATAATCGCCATCTTAACCTTC TTCTTTCTGGCATGGCTCCGCCGTAAGCCACTCCCGCCAGGCCCAATGGGGTGGCCA ATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGTTTAGCTAGTTTG GCGAACAAATATGGTGGCATCCTCCATTTAAAAATGGGTTTCAGCCACACCATTGCC GTGTCATCGCCGGAGATAGCTCGGCAAATACTTCAAGAAAAAGATAACATCTTTGCC AACCGTCCGGCCACCATCGCCATCACGTATCTTACCTACAACCGCGTAGATATGGCG TTTGCAAACTACGGACCATTCTGGCGGCAGATGCGGAAGCTTTGTGTCATGAAGCTG TTCAGCCGTAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGGATACCAT GGTGAAGGCCACCGCCACTAACTCCGGGTTGCCGGTAAACTTGGGTGAACTCGTATT TGGGTTGACCCATGATATCATTTACAGGGCGGCCTTCGGGTCGATTTCCCACGAAGG TAAAGAAGAATTCATCAGAATCCTGCAAGAATACACCAAACTCTTTGGCGCATTCAA CTTGGCCGACTTTATTCCAATGCTCGGGTTCATTGACCCGGCAGGGTTGAATACACG TTTACCGGCGGCCAGGGCGGCGTTGGACGGATTCATCGACAAAATCATCGACGAGC ATTTGAGTAAAGAAAAGAAAACCGGCGAYGAAAATGTRGATAACGACATGGTTGAC GAGATGTTGGCGTTTTACAGCGAAGACGGAAGAATCAACGAAGGCGGTGATTTGCA AAACGCTATTAACTTGACACGAGATAACATCAAAGCCATAATCATGGTACGTAACTT ATGTAACTCGAATAAACTAATAACTATAGATCTTTCTAATATTTAAAACTATTGTTCT AAAGAAAAACTATACGTAAATTTTGCAGGATGTAATGTTTGGTGGCACTGAGACGG TGGCTTCCGCCATAGAATGGACCATGACGGAGCTAATGCATACACCGGAAGCACTA ARGCGCGTTCAACAAGAGTTGACTAACGTTGTCGGTCTTGACCGCCGTGTCGAAGAG TCTGACTTYGAGAAGCTAACCTACTTCAAATGTGTCATCAAAGAAACCCTCCGGATG CACCCTCCGATCCCAGTTCTCCTCCACCAATCATCGGAGGCGACAGAAGTTTCCGGC TACCACATCCCTAAAGGGACACGTGTGATGGTCAACGCRTATGCCATCAATCGTGAC AAAARCTCTTGGGAAGATCCCGATACTTTCAACCCATCCCGTTTTTTACAAAACGGA GCTCCTGATTTTAGGGGAAGCAACTATGAATTTCTTCCGTTTGGTTCTGGTCGGAGGT CGTGTCCGGGAATGCAACTTGGGTTRTATGCGATGGAGATGGCGGTGGCCCACCTTC TTCATTGTTTCACGTGGGACCTGCCCGACGGAATGAAACCAAGTGAAATCGACATGG GTGATGTGTTCGGACTCACCGCACCAAAAGCAATAAGGCTAGTGGCTGTGCCAACTC CGCGTTTATTATGTCCATTGTATTGAAATAATTGTATGTAAGTTTTTTAGAGTTTCAT TTTATACCAGATATATATAATAACATGGAAATATTTTTCTTATTGATCTTTGCTAATA TATTACTAAATCAACAAACCTAGTTGGAACTTGAAGTGTTTACTGGATCTTTATTTCC CAGATTGTGACGACTTGTAAAAGTCCGTGTAATCCATGTGTGAAACATTTGGCGATG AAAAACTCATTGGTGAATATAAATTAGTAGAAAAAAGTCTTTTCATGACACACAATT TTGTCATAAATGGCCACAAATGTCTGTAATTGAAAACACAGTCCTAAATGAAAGAC GACAGACTTTTTTATCATAAATTTACGATATACATTATGATAGATAATTACGACGTA CAATGACTGTTGTAAACGACTAAAGATGACAAAGTCTATCATTGAAAACTCCGTCGA AAATCTAAGATGACAGACATTTTCCGTAAAAATACGACATACATTTTTGACAAACAA TTACGACAGACATTCAAGGCATACATCTATCACATATATTAATGACTGACCTTTTGT ATGTCGTAATTTGACAAACTTTTTTGACATACATTTTAGTATTTCATAATTTTACGTTT TTTAAGAATATATTTTTTTCTCTAAAATGTACCAATATTAATCAAAATAAACACACAT TTAATATATGATAATACAAATTAAGATAAATATACAAAAAGTCAATCCATCGCACA AATTCTAGTATGTCAAATACAAAGTACCATATGTTTATCAAAAAGTAATTGTCAAAT ACACAATATCATCGGCGGTAAATAAAGGTTGTGACATAAGTAGCCAAATCTTCACG CACCTCATCAAGCTCAACGTTCGTATATTCATTCTTCCCCCAAAAATGAAACAAAAG TTAATATATTAGCCATAAAAAACAATTTTAAACAATTACTTGAAAATTGATCTATTTT AAACAATTTTACTTGCGTTGTTATCCAACACTTTGACTCCTTCATCGACAACTGCTTT CATGAATTTAAGACATAATACCGGCATTTTGTGCCACCTGGCTGCATCGGACACTAT ATAAATACATAATAAATGGTTAGTCAAAAAATATATTAGACAAATCATGAAGTTAA AGCTGTAGTTTGTGCTCACCAAGACATTTATCCACCTCACACTAATCCTTTTGTTGGA ATCACATTGTGTTGCATATAAAGATAATGCTCTACAATAAATTGGATGAAATATATA ACAACAAAAATAAAATAATGTGTGATAATTTATATTACTTATGCTTTAATCATTTGCT TCAATTTTGTATTAACATTTGCAGTCCTTATAGAATCAAGGTAATAGCAGGTGGTTTT TTGCATGCTTAGTACGACTAGAACCCAATAGCCACTGCAGACCAAAAAGCCAAATA AAAATTAAGGCAAATACCTCTAATGATTAAGTCAACTGAGATAGTATTACTAAAAG AAGACATGTCCAAATTAAACATGTCTTCATAAATTAAGACGTTTTTTTACTTAACCC ATTAAGTCATTCCATCCACACCAGGTAAACTAGAAACATACAAGTATAATTGTTTGG ATCTAGTTACTAAAATAGTTTAGTACTTTTTGTATTCATAGTCAAATAGAAAATCTAC CCCGGGATTCTAAGGTAATAAGATGATGTGGTAGTCCTTTCTTGTGAACAACCGAGA TGTTATGTTTCTACTCTCTTGATCGCCTTTTATGAAGTTTTCCAGTCGTCCATCTTTAG ATATTGCACTCGATATCACGAAACAGATTCCATGAGCTGTTTTTCCTCCATTCTTGAT TTCTTCATATAAGTGCCTGTTAAGATACAAAAGCTAAATTCGTTAAATACACAAAAT ATAGTAAATTAGTCAAAATTAAGCACTTACACCATATAACTAGATATTATAGAACTG GTCAACTTATGCATTGTAAACACCACTTCAAAACCATCCCAAAATATATATTTGCAA CAATCAGACTCAACAAACAGTC SEQ ID No: 61 >Endive_ce_gene2 ATGGATTCTCTTCAAATCCCTATACCAGTCTACGCTATAATCGCTATCTTA ACCTTCTTCTTTCTGGCATGGCTCCGCCGTAAACCACTCCCGCCAGGCCCAATTGGG TGGCCAATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGTTTAGCT AGTTTGGCGAAAAAATATGGTGGCATCCTCCATCTAAAGATGGGTTTCAGCCACACC ATTGCCGTATCATCACCGGAGATAGCTCGGCAAATACTTCAAGAAAAAGATAACAT CTTTGCCAACCGGCCGGCCACGATCGCCATAACCTACCTCACCTACAACCGCGTAGA CATGGCGTTTGCCAACTACGGACCTTTCTGGCGGCAGATGCGGAAGCTTTGTGTCAT GAAGCTGTTCAGCCGTAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGG ATACCATGGTGAAGGCCACCGCCATTAACTCCGGTTTGCCAGTAAACTTGGGTGAGC TCGTATTTGGGTTGACCCATGATATTATTTATCGGGCTGCTTTCGGGTCGATTTCCCA TGAAGGTAAAGAAGAATTTATCAGAATCCTGCAAGAATACACCAAACTTTTTGGCG CATTCAACTTGGCTGACTTTATCCCAATGCTCGGTTTTATTGACCCGGCTGGGTTGAA TACACGTTTACCGGCGGCCAGGGCGGCGTTGGATGGGTTCATCGACAAAATCATCG ACGAGCATTTGAGTAAAGAAAAGAAAACCGGCGACGAAAATGTGGATAACGACAT GGTTGACGAGATGTTGGCGTTTTACAGCGAGGACGGAAGAGTCAACGAAGGTGGAG ACTTGCAGAACGCCATTAACCTGACTCGAGATAACATCAAAGCCATAATCATGGAT GTGATGTTCGGTGGCACTGAGACGGTGGCTTCCGCCATAGAATGGACCATGACGGA GCTAATGCATACACCGGAAGCACTAAAGCGCGTTCAACAAGAGTTGACTAACGTTG TCGGTCTTGACCGCCGTGTCGAAGAGTCTGACTTTGAGAAGCTAACCTACTTCAAGT GCGTCATCAAAGAAACCCTCCGGATGCACCCTCCGATCCCAGTTCTCCTCCACCAAT CATCGGAGGCGACAGAAGTTTCCGGCTACCACATCCCTAAAGGGACACGTGTGATG GTCAACGCATATGCCATCAATCGTGACAAAAACTCTTGGGAAGATCCCGATACTTTC AACCCATCCCGTTTTTTACAAAACGGAGCTCCTGATTTTAGGGGAAGCAACTATGAA TTTCTTCCGTTTGGTTCTGGTCGGAGGTCGTGTCCGGGAATGCAACTTGGGTTGTATG CGATGGAGATGGCGGTGGCCCACCTTTTGCTTTGTTTCACGTGGGAACTACCCGACG GAATGAAACCGAGTGAAATCGACATGGGTGATGTGTTCGGACTCACCGCACCAAAA GCAATAAGGCTAGTGGCAGTGCCAACTCCGCGTTTATTATGTCCATTGTATTGA SEQ ID No: 62 >Endive_ce_kethel_v0.1_EVM71979 TTCCTTAAAAGGATGTATGGAATATGAAATTCCAATTCAGGAACTTTGTTT TAAAAATAAAGTGCATCAGACCTGACCTAACATGACTTGGTATTCGTAATAATAGAC ATCAAGAATCAGAAAACATATTTTCTGAAAGTACATTGCTATCGAAAGCACCATTTC ATAAAAAAATTAAAAGAACTTGCAGACTCAGACCTGACTTGGAAAGAATAATCATA AAAAAAATACAAAAATGAAATAAAATCTCTCAAAATACATTGCTATTAGAATTACC ATTTTAGAGTGATCTTTTTCCAAAAAGAATTGCATCCCACTCAGGTAAAACTGGATT GAACCTACTTCTACAGATGACTATAAAATTGATGTAATTTTTTGTCTGACTTTTGTCA CATATTATGAAAATGATAGGATGGAGTTCTGCTTGGCCTAAAATTTTTCAGTTGTTG AATTTGAATGTTATTTAGCTACCGTATTCAAGCATTAATAAAGTGAATTTGATTCTTT ACAATACCTTTTTGACTCCTGTATACATTGGTCCCAAAATAGCTCCTCTCTTTTAAAA AACAATGACAAAACTATGAATCAATTACCAGAAAGAGGAAATGGGGTTGAAATTGT TCATTCATGAAACCAAGTTAAGTCATACGCCTCCATAATCTAGATAAGTAAGTAACT GAAACCACAGTAGTCACCAATGGAATTCAAACAAGAAACAATATTATAAAAACAAA TTAAAAAAGAATGAATGAAAAAGAAGATGACAGTAAAGTGTCGTTGCTACAAGAAC TTACCAATTGAACCAGAACCATCAGTCCGCTACCACCTTACCAAGGTATCCCTTGAA AGGGTTGAATCAAACTCGGACTTGATTCATGGATTTGCTAATTTATATACACTGAAG CCAAATTAGATAATTTACTCCATATATTTGGTTGTTCAACTTCAACTGTGCATAAAAA TGTCGAAACCAAATCAAATAAAAACCCTAAATGGTGGGATATTTAGGGGATACGAA TGATATTGGTGGAAAAAGAAAATGTGAATGAAACCTGAATCCATTCATCGATCATTC AAAATGAAACCCCGATTCAAGCATTGAGAGTAAAACCTCAAGAATACCATATAGTA AGATGAAGACGTAGTTGCACCGGATGGTTTAACGATGGAAGCAACAACAGGGATGA AAAAAATAGGCTAAACCGGAAGGCGTAGATGGAGGCTGCGAATTATAGATGTTGAT TGCTGTTTTGTGGATGCCGTTTGAGATTTGTGCGTTCAATATCTAATTGAATGCATTC TGTATCTAATGGCTGATTTATCGCCTAACATTCCTGATTTATTGGAGATTTGGATGGA ACTAGTTAATTGTGATTTAATATGATAATAGTACAATAGAGGTTTTGAGCGGGAAAT TAAAAAATTGGCTACACAAGAGGAGGACATGTGGCACTTTTTTTACTCTTTTATTAG AAGCAAAGATATATATACTAGTTATATATATACATGAGCAGAAATTAAAAATATAC AGCAGTAATAGCACAGAAATTATTTTCCTGTATGATAGAGGCATTGTGAGATTGGAT TATTGGAATAAGCTAAATTTTTTTTTTCCAGATGTGTGGTATATTGTTATTTTCGTTGT AGCACCGGTAAAATAAAAAGAATTTATAAATTTTACCAATTTTCGAAGAAAATTCCA GTCACGAGGGCGCCATGTGCCCTATAGCAATTCAGCCCCTAGTTATCTATGTAAAAG CGGAAATACGAAAATAGTCAACCTTACGGCTTCAAGTATATATAATTATATAATAAA ATGCTAACTCGTTCAAACAGAGCTATGCGCTGCATCCCCTTTCAAGTTCAACTACTG CGCACCCTGTGTTTTTATATATATACACTCGTGTGCTCTTTCTATACTTGGCAACCTT CTCTCAGTTGCACTTCATTACCCATATACTTTAAGATACTCACTGAACATAAATTCTT TCCCGGATACTATGGATCCCATGTCCATCTTACTTTACGTTGTACTCCCTCTCTTTAC CTTCTTCCTTCTCTCCCGTTTTCGCCGGAAACCTCTTCCGCCAGGTCCAAGAGGATGG CCAGTGATCGGGAATATGTTAATGATGGACCAACTCACCCACCGTGGCCTAGCTCGT TTAGGTGAAAAATACGGTGGTCTTCTTCACCTCAAAATGGGTTTCAGCCACACGGTT GCTGTCTCGTCGCCGGAAATAGCCAGGCAAGTGCTCCAAGTGCAAGACAACATCTTT GCCAACCGTCCGGCAACCATAGCCATCAGTTATCTGACCTACGACCGCCAAGACAT GGCGTTCGCCAACTACGGTCCCTTCTGGCGTCAGATGCGTAAGCTCTGCGTCATGAA GCTGTTCAGCCGAAAACGAGCGGAGTCATGGGACTCCGTCAGAGACGAAGTTGTCT CCATGATCAAAATCACCGCTGCAAGCTCCGGTTCCGCTGTCAACCTCGGCGAGCTGG TGTTTGGGTTAACCCATGACATCATTTACCGGGCAGCTTTCGGTTCTATATCCCATGA AGGAAAAGAAGAATTCATAAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCCT TCAACTTAGCCGATTTTATCCCATGGCTAGGATTTATCGACCCCGCTGGACTGAACA ACCGATTACCCAAGGCCCGAGCAGCGTTAGATGGGTTCATCGATAAAATCATTGATG AGCACCTAAGGAAGGAGAAGAAAACCGGCGACGAAGAAGATAATGATATGGTGGA TGAGATGTTGGCGTTTTACAGTGAAGAAGGAAAAGTGAACGAAGGCGAGGATTTGC AAAACGCAATTAGACTCACCCGAAATAATATCAAAGCCATTATCATGGTAAGTAATT TGTTGATTAATATAATATATTTAAAAACAAAACAAGATAAATTTTCAGAAAACCATA GATCTTCTATATGATTTCTAGAAAAGGCATAAAATAATTTTATGTTGGTTTAGGTAAT TATCCGCTTCCATTTTAGTCGTTATTCAATTCAATGAGTATGAAAGCATGATATTCGA TATGATTTTCAATAAAAGAATTGTGTTAGGTGAAGTGGCAAAATATGACAATACTGA TCAAATCACACTGGGATATGGATAGTTTAATACTTTAATTAATTTGACTAATTGATTG AGTTACATATGATTACTTATTCAACACACTAATACATTATGTTTTTTTATTATTAGTT CAGGAAAACATGAATCTTTGTTTAATATATCTTTAACTATTAATCTAGTATTGGTATA AACTTATGATTAAATCATTATCTATATCTATATCTATAGGATGTGATGTTTGGTGGCA CTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTGACGGAGCTCATGCATACCCCAG AATCCCTCAAGCGTGCACAACAAGAACTTGTTGATGTTGTTGGCCTTGATCGTCGTG TAGAAGAGTCCGATTTTGAGAAGCTAACCTACTTCAGATGTGTCATCAAAGAAACTC TCCGTCTCCACCCTCCGATCCCTGTCCTATTGCACCAATCATCTGAAGCCACGGAAG TTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAATGCATTCGCCATTA ATCGTGACAAGAACTCTTGGAAGGATCCACACACGTTCAACCCATCACGATTCTTAC AAGATGGGGCCCCCGACTTTAAAGGAAGCAACTATGAGTTCCTTCCTTTTGGATCTG GACGTAGATCATGTCCTGGAATGCAACTTGGATTGTATGCAATGGAGATGGCGGTG GCTCACCTTCTTCATTCTTTCACGTGGCAGTTGCCCGATGGAATGAAACCAAGCGAG ATCGACATGAGTGATGTGTTTGGACTCACTGCACCAAAAGCGATCCGACTTGTTGCT GTGCCAACTCCTCGTCTGTTGTGCCCGCTGTATTGATCAGAAAGGGCCGGTTTGTGA TTGTGAGAATTTGTTAATGTTGCATTGAAACAAATTGTTTTTCTTTTTCTTCTTATTTC GGTCATTATCCATAAAGATAGATATAAACAAGATCAATAACCGTAAAGACTTTTATT GTCATGTACATGTTGAAAGTAAAATTTCTTACGTTTCTTGTGTTCATATTATGTTTTCT TCTTCCGAGAATTTTACGCCAGCTTTGTGTTGAATTGCTGAAAAAGACATTAAGTTC GACTATATTAATACTCAAGTTGAAATTGAAATTAGTTGCCCTTTTGTCAAATTAAAA ATGTCAAATATTTATAGGTTCTTCAACTACAACTGATATGAAATGATACCCGATGAG TGACGGGGCTTCTTCCAAGTGGGACCTTCGCATCCTCCAATTTCAGATATATGTCTAT TGTTCACAATAATGATATATTAAATAAAGAAATATTACAAAAATAACCACAAATAT ATATTATGTCTCCGTATCACTCGCATATAGATAACCACATATTACATCAATGATATAT AAAAACAAAATGCTATATCTTTATTACAAAAACTAGGTTAGAAACCCGTGTGTTACA CGGTTGACAATTCATAAAACAAACGTAAACAAAATTATTTTGTAAGGCACTTATATG CCAACCACTTGAACATTTATTACAACATCCGACAGTCTCCCCGTTAACTGCCACACA AACACAACTTGTTTTTGGCAATGCACTTTACTCCTTTAACCCGTAATACACTATTTTT ACCCATAATAGCAAGGTACTTACACATCTTTTCCGAAATTGACTATATATACCCTAA AACTTGTTTAATTGTTACAAGTTCAAGTTACTTATTGTTAGTATTAGTGAAGAAATGT AAATACATTGCTATATGGTTAAAAAAAAGTGCAAAGAGATGGTATACTAAAAAGTC AAAATGTCGCCTAACAGCTCACCCTTTACGTTAAGGGTGATAGTCTTTCTTACAATCT TAAATGTAATTTTCGTGACGAGGGACGTGTCAACCGATGCTAAAAAAATTTGATGAT GCTTTATTGGTATGCATTCTTTCCATTTCTATAATATTAATTATTTAATGTTTTTATAT GTTTTCTTAAAATGGTCCAAAGTTGTTTAAAACTACATTTTCTTTACTCACATAATCC GTCTATTTAACATTGTAGCATCTGTCCGACAACCAAAATCATATATTAATGAGAGTA AAATAACTAATAGCTAAAATGTTCCAAGTATTGAAAAATTAAAGATAAAACGTGAT AATAGGATAGACTATTTGGAGTAAAATTCCCGATAAAAAAATTATGGGTAAACTTTG TCCTAGGGTTAACTGATTTTTTTTTCAGTTTTGTTCCCAAAAAGGAATCAGATATTTC TAAAATGGCCTTTAGCTATTACAAACCCAAATGACAGTTCTACAACAAATAAAACCA AAATGACAAAAAAATTACGAAAAGGAAAAATTTTCTGATATGATACTTAAATATTG TTTTTATTTAACCTGATTTTAGTGGCTGCTTTGAAGAAACTAATAATTTATTTTGGGT CTGAGTTCAAAGCTAAACTTGACCATCTGACACCAGCACTTCTGACTGATGCATCTT TGTGGTGAAACTAAGGCAGAGGAAGAGTAATCAAAGCCATCAAGTATTGGTCCATC ATCTTTCTTAACACCTTAACCTCTTGGGTACATGAGAAAGAATTAATATACGGATAC CCTATAACACTACAAGGATTAGTGGTTTTAGCGGCGACATAAGTCGCCCCTAATAGT CCAGAAAGTCGCCCCTAAAGGCATTAGCGGCGACGAGTCGCCCCTAAAAGTGTCGC TCCTAATGCCTC SEQ ID No: 63 >Chicory_ci_vitessa_fr_vl_EVM170737 GTATTGTCAACATCAACAACCTCATCCGACTTCCAATTAGCAAGTGACCG AGTATGCTTCACCTTTTTGTGATTAAACCCCTAGTATAAAGAAAACACATTCAGAAT ACACATTTTCTTATAAAATATAACCACAATAATACCTCTTCACTTAATCCAATTTCCA AATGTGATCGATAAGGCTTGAAACTTTCCCCACAGACAACTATTGGTACATCATCAC ATTTCCTGACGTCCTGTATCATCATAAGGTCATCAAGATGATCAAACTTTTCATATTA GAAACCACAACCATTATTATTTAATAACATAACGTACATTAAAAGCCTGTCTTCAAC ACTGTATCTCTTGGTTACCAGAACATCGTTAATTGTATTCTCGTCGTCCTACATAATC AGCAAATCATCAACATGGTTAAACTTTTCATATTAGTAAACCACAACTACTATTATT CAATCACATTGCGTACCTTGTCAAGAGGCTCTTTAGAACTTTGACTTTTGTCAACCAC ATAATCCAACAGAGAAACTGTCCTTCATTAGAAAGAAAATAGAATATAAACAAATA TTCGTATTCATGTGACAACTTCAATATAAAAATTAGACACATTGATTACCTCAATAT CATTGATAACTATCTTGCATACATCCTCATCGGACCTTCGCTTGCAGAGTAGACCCC CCATGTATGCCATATCCTCCAACTACGTAAACTCATAAAACAACATCTGTTATATCT ATGTATTAACAGGAACATCAACCCAGACAAAACGAAAACCATTTAGTTCCATGAAA ATCGTCAACCTCCCATACGTGGGTCTAAACTGAAGCCACGACCTGAAGATTCTCCAC AAAAAGTGAACCCTCCAAATAACTGTCACTTCTAACCGTATATGATGATTTAACACG GTTGAGATTGAAAGTTGGGAAGATCGAACGGCCATAATTATTGGAGAAAAAGTAGG ACTTATTAGGAACATTAGAGATATAATTTGACAATCCCTCCGTAATTTTATAACTTTC TAACGTTTTGTTTTGTTAGCTTTATAAATTAAGACGTTCAAACAAAAAAAAAAAAAA AAAAAAAGCACTTTAAAGTAAAGTATTTCTACCGCATGATATTATTTTCCAACATCA CCTTTCTTTCTTTGTCCAATATTATATTAAACAAAACAATGTTTATGATATAATCATT CTCCGTTCTATAAAAAGAATTAGTCTTCTATATACTTGATGTGATTAGTGTAGTAATT TATACGAAGAACTATTTTCACCTGTATGAAACAAAAACAATGATGGTTTTTGATGGT GGACTAATTAACATAATATTTAAATATAGAAAGTTAATAAGCAACAACCTTAACTAA GAAATTATGTCAATTAAATACATGAACAGAAAATTAATTCGAAGACCAATTCACTTG GTGTAGTAACTAGTAACTCGTAACATTATGCTGACATTTAATCTTATTATATAAAAT AAAAAACAAAACTCTTTATATGATAATTTAGACCGGCACTCGTTTGCAAGACATAAG AATTAGTCAACATTTCATGTGATTCTCACTTATAATAAACAAAGTAAAAAGGAGTAA ATTGCAAAACTGGTCCTTGAATTTTACTTAGGATTAAAAATTCAGTTAAAATTTTGA AATTATCACGATGTCGTCCATAAATTTGAATTTTGTTGATATGCTCTCTGGGATTTTC TCAACAGTACACGTTTATTCTAGATTTTAAAGTCATATTATATGTATTAGGATTTAGG AACCATATTTGCGACAAAATACAAACTTAAAGAAGGATATTATAACAATTTGTATAA TTGCAATATTTGGTAAAGCACATGGACATATTTGTAAACTATAATAGTAATATCTAT TTGAATTCCGGCCATTCAAACGGGGTGTGCCCGCTTAACGTGTATATAAACACCCCT TTATTTCACTCTTTAGGTAGCAACATTCAACCAGTTGCCACTTAACTCTCCATTTGAA TCAATATGGATTCTCTTCAAATCCCTATACCAGTCTACGCTATAATCGCTGTCTTAAC CTTCGTCTTTGTGGCATGGCTCCGCCGTAAACCACTCCCGCCAGGCCCAATGGGGTG GCCAATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGCTTAGCTAG TTTGGCGAAAAAATATGGTGGCATCCTCCATCTAAAAATGGGTTTCAGCCACACCAT TGCCGTGTCATCGCCGGAGATTGCCCGGCAAATACTTCAAGAAAAAGATAACATCTT TGCCAACCGGCCGGCCACCATCGCCATCACGTATCTTACCTACAACCGCGTAGATAT GGCGTTTGCAAACTACGGACCATTCTGGCGGCAGATGCGGAAGCTTTGTGTCATGAA GCTGTTCAGCCGTAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGGATA CCATGGTGAAGGCCACAGCCACTAACTCCGGTTTGCCGGTAAACTTGGGTGAACTCG TATTTGGGTTGACCCATGATATCATCTACAGGGCGGCCTTCGGGTCGATTTCCCACG AAGGTAAAGAAGAATTCATCAGAATCTTGCAAGAATACACCAAACTCTTTGGCGCA TTCAACTTGGCCGACTTTATTCCAATGCTCGGGTTCATTGACCCGGCTGGGTTGAATA CACGTTTACCGGCGGCTAGGGCGGCGTTGGACGGATTCATCGACAAAATCATCGAC GAGCATTTGAGTAAAGAAAAGAAAACCGGCGATGAAAATGTAGATAACGACATGGT TGACGAGATGTTGGCGTTTTACAGCGAGGACGGAAGAATCAACGAAGGCGGTGATT TGCAAAACGCTATTAACTTGACACGAGATAACATCAAAGCCATAATCATGGTACGT AACTTATGTAACTCGAATAAACTAATAACTATAGAACTTTCTAATATTTAAAACTAT TGTTCTAAAGAAGAACTATACGTAAATTTTGCAGGATGTAATGTTTGGTGGCACTGA GACAGTGGCTTCCGCCATAGAATGGACCATGACGGAGCTAATGCATACACCGGAAG CACTAAAGCGCGTTCAACAAGAGTTGACTAACGTTGTCGGTCTTGACCGCCGTGTCG AAGAGTCCGACTTCGAGAAGCTAACCTACTTCAAATGCGTCATCAAAGAAACCCTC CGGATGCACCCTCCGATCCCAGTTCTCCTCCACCAATCGTCGGAGGCGACAGAAGTT TCCGGCTATCACATCCCTAAAGGGACACGTGTCATGGTCAACGCGTACGCCATCAAT CGTGACAAAAACTCTTGGGAAGATCCTGATACTTTCAACCCATCTCGTTTTTTGCAA AACGGAGCTCCTGATTTTAGGGGAAGCAACTACGAATTTCTGCCGTTTGGTTCTGGT CGGAGGTCGTGTCCGGGAATGCAACTTGGGTTGTATGCGATGGAGATGGCGGTGGC CCACCTTCTTCATTGTTTCACGTGGGAACTACCCGACGGAATGAAACCGAGTGAAAT CGACATGGGTGATGTGTTCGGACTCACCGCACCAAAAGCAATAAGGCTAGTGGCAG TGCCAACTCCGCGTTTATTATGTCCATTGTATTGAAATAATTGTATGTAAGTTTTTTA GAGTTTCATTTTATAAAAGATATATATAAATAATAACATGGAAATATTTTTCTTATTG ATCGTTGCTAATATATTCCTAAATCAACAAACCTAGTTGGAACTTGAAGTGTTTACG GGATCTTTGCTTCCCAGATTGTGACGAATTGTAAAAGTCCATATATCACAATGGAGA ATATCGAAAGGATTATTAGCAACATTGTTGAAAGAAACAAAAGGTAATCTCTTTGTT TAGCTAATGGACACATATGACAAACAGAGTCATTGTCATCTTTATTGCTAATACAAA GATCATTGCGTATTATCCTAATTTTGTCATTAGAGGGATGACCAAATCTTGAATGCC ATTGATGAAGAGAAACAGCCACATTTGCACACACAGTGGTGGATGGGATAGCATGA ACCTTACCCTTGCCAATTATTTTCTTGGGGAAAATCTGTTTGATAACAGCATAATCAT GATAGAATTTGACTGTTAGTAACTGTGATTCGGTTAAACAGGTGACTGATATCAGAT TCAGTTCAAATTGTGGAACAAATAGTACATCTCTAAGAAACAACTCATCCGTGAGCT GTATGTCTCCTTTATAATGAACCTGGATGAGACTATGATTTGGTAGTCTTACTCTAGT GCCTCTAATAAAGTGAATATTTGTGAAATGCCTTTGTCATTGCAAATATGTTATGTA GCCCCCGAATCAAGAATCCATACATTTGATAAGTAATGTCCAGAATTAAAACTTAGG ATTCGGTATTTACCTCTAGATGCTCAGGGACATTGGTAGTAACCATATTAGTGGAAG CAAGTTTTCCTGTTAACAAGGAAATAAGACCTTCACACTGTTGCTGAGTAAGACCAG TAACACATCAGTATGTACAGAAGGTTGATTCATTTCTTCTTTATCAATAATAGATTGT TGTTGATCAACATCAACAGAGTTTGCACGAGGTTGATTAGACTGAGTTCTGTATCCA GGAGGGAAGCCATGCAAGCGATAACACTTGTCTTGTGTGTGACCGATGCGATTACA GTGCGTATGGAGAGGAGAATCTTTTCAAAAGTTTTTGAAAGACTGGTTAGATCTAGT TTTCTTGTTCTTGATGGGTTTTAGTGCAAACAATGAGCTAAAATCCTAAGTTTACATG CACCTTATAAGGATCTATGTTTTTCTCAGATTGAACCTATAACTAAGACCAAAAATA AAAATACAAAAGAATAATTTTATACCTTTTTACCTTTGGAAGCTAGCACCACAATTC TCGTGCCTCTAGTGGCTGACACCCAGAATCAGGCAAGCTAGATGAGCAAGAGAGAG GAAGGAGGAGACTCCTTTTTGGCGTGAGAAATAGGGGAGTCAGGGGCCTCTATTTA TAGTCTCTAGGTGATAAGCACTAAGGAGTATAAATGTCTTATTTAAGATCATGATAT GATAATGTTTTTATCAGATAAAAGGATCTGCTTACCATTGCTATAAAAACCCTTATG GGTTTCGGAATCCACCAGGCTCCAAGCCTGTTATTTCGTCCAACCCATTAGGTTAAC CAGATTGACTGTTACCCACCTATTGAACAATTACAATTTAACCACTGTACTTTTAACT AATCCAATTAATCTTAAAAATAATTCCAATTAATTTTTGATTAATTATTAATTATATA TTATTATTTCTAATTAATATATTATTATTATTTTATATTAATATATCATTATTTCTCTC TCTTTATTGGTCATCTAATCATTTGCTAGTTATGAGAGCAACCCAAATAGACTGTGTG TAACACCCAAAAATTTTCGCAACATATTTGAACTTTTAAAAACAACATTTATAAGAG AAACTATGATTTTACAAAAGATAAGTATCACAAAACCAAATTATATCGAAATAAAC TTAATAAAGTGCGGAAGCAAAATAATAATAATAATGTCCCAAAATGGAAATTCTTCT AATAGTGGTATCCCGGTGCTCCAAGTCACACCTC SEQ ID No: 64 >Chicory_ci_vitessa_fr_vl_EVM170780 ATGGTCCGGTGTTATCCCACTTATTTTATGCTGATGATGCAATTTTTGTAG GTGAATGGTCTTTGTCAAACATGAAGAATCTGTCCCGCATCCTTAAGTGTTTTCATGC TGCATCAGGACTTAAGGTCAATTTTAGTAAATCCAAAGTATTCGGCATTAGTGTGAA CAATGATCTAGTCTCGAGGTGTGCTCGCGTCCTTGGTTGCGAGGCGGGCTGTTTTCC GTTCAAGTTTCTTGGAGTTCCTGTGGGGGCTAATATGAACCGAATAAAAAATTGGGA CGTAATCGTGGACAAGTTCAATGCCAAATTATCATTGTGGAAAGCAAAAAACCTATC ATTCGGCGGGAGGATCACACTAATTAAGGCAGTACTCAGCAGCTTACCTGTTTATTA TTTTTCCATTTTTAAAGTGCCTGCAGGTATACTTAAGAAGCTTGAGCGGATACGAAG AAGCTTTTTGTGGGGTGGCGGGGGTCGAAATCATGGAATACCGTGGGTGGCTTGGA ACACAGTCATCTGTGACAAGAGTTATGGCGGCCTTGGAGTCGGATCGCTACGTAGCC TCAACATTGGACTCATGTTAAAGCGGTGGTGGCGTCTCAAATGCAAACCGGAAACA TTATGGTGCAGAATAATTAGTAGTATACACAACTTGGTGAGGAAACCGGCTCATCAT CTTGCAAAGAGGTCGGCTACAGGTGCTTGGCTTAATATCGTCAACATCCATGGTGAC CTAGAGGAGTTTGGATTCAGTTTTGACAGTTTATTCAGGAAGACAGTTGGTTCCGGC AACAATACTTTATTTTGGCATGATAAATGGCTGAATGATACACCTTTGAAAGATTCA TATCCAGCCCTTTATGATTTAGACAAACGGAAAATGTGTTATGTTTCAGATAGAATC ACGATGCAAGGGAGGCAGTGGGCTTGGAGATCTAATCCATGCGCTGCTGATGAGAT TGACCAGATGTACAATTTGGACCAGGCTTTAAACAGTTATTATCCGTCCAATCGAGA AGATACCTGGAGGTGTGTGCTTAACAGTACAGGGTCGTTCACGGTGGGGGCAATTA GGGAAATTATCGATAATTATGGTGTTACAAGATCAAGTATAAATGTTCAATGGCTAA AAAAATACCATTAAAAGTAACATGTTTTGTATGGAGAGCCCTTTTAGGGAAAATCCC GTCAGCGGAGGCTTTGATTAGGAGGGGAGTACGGCTTGATTCCTCGATTTGTTCATT ATGTAAATCAAATGTTGAATGCTACAATCATATTCTAGTTGGGTGCAGCTTTGCTAA GGAAGTGTGGGGGAAGATACTGCAGTGGTGTGGGGACCCAATCTCGATAGGAGAAT CGGTGGAGGGACTGTTACAGAACGTGGCTTATTGGGGAAGGTGTCCGAAGAAAAGG AGACTCTTGACGGTTGTATCTTACGGTACGTTGTGGTGTCTTTGGAAGTCAATGAAT GATCAGATCTTTAAAGGTGTATCTTGTAATTCTGACACAATTTGTGATCAAATTAAA GCGTTGCTGTATACATGGATAAAGTTTAGAGGTGGTAAGTTAGACATTAATCAGGAG GGGTGGAATTTATCTCCATTGAATACTTTGTAATTTGACTTTGTATCGGCTGTCCGGT CTTGCATCTCGCTGATCGGTTTTGCCTTTTATTTTATTTATAAATTGTGTTGCCGGTTC AAAAAAAAACTGTATGCATTTAATGTTGCATTAAATGCATAGATTAGATATTATATG TGTTAGGAAACATATTTGCAACAAAATACAAACTTAATGAATGATATTATAATAATT TCTAAAATTGTCATATTTGGTAAAGCACATGGACATAATTTGTAATTTATATAGTAA TATCTATTTGAATTCCGGCCATTCAAACGGGGTGTGCCCGCTCAACTTGTATATAAA CAACCCTTTATTTCACTCTTAAGGTAGCAACATTCAACCAGTTGCCACTTAACTCTCC ATTTGAATCAATATGGATTCTCTTCAAATCCCTATACCAGTCTACGCTATAATCGCTA TCTTAACCTTCTTCTTTCTGGCATGGCTCCGCCGTAAACCACTCCCGCCGGGCCCAAT GGGGTGGCCAATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGCTT AGCTAGTTTGGCGAAAAAATATGGTGGCATCCTCCATCTAAAAATGGGTTTCAGTCA CACCATTGCCGTATCATCGCCGGAGATAGCTCGGCAAATACTTCAAGAAAAAGACA ACATCTTTGCCAACCGGCCGGCCACCATCGCTATAACCTACCTTACCTACAACCGCG TAGACATGGCGTTTGCAAACTACGGACCTTTCTGGCGGCAGATGCGGAAGCTTTGTG TCATGAAGCTGTTTAGCCGTAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAG GTGGATACCATGGTGAAGGCCACCGCCATTAACTCCGGTTTGCCAGTAAACTTGGGT GAGCTCGTATTTGGGTTGACCCATGATATTATTTATCGGGCTGCTTTCGGGTCAATTT CCCATGAAGGTAAAGAAGAATTCATCAGAATCCTGCAAGAATACACCAAACTTTTT GGCGCATTCAACTTGGCTGATTTTATTCCAATGCTCGGTTTTATTGACCCGGCTGGGT TGAATACACGTTTACCGGCGGCCAGGGCGGCGTTGGATGGGTTCATCGACAAAATC ATCGACGAGCATTTGAGTAAAGAAAAGAAAACCGGCGATGAAAATGTTGATAATGA CATGGTTGACGAGATGTTGGCGTTTTACAGCGAGGACGGAAGAGTCAACGAAGGTG GAGACTTGCAGAACGCCATTAACCTGACTCGAGATAACATCAAAGCCATAATCATG GTACGTAATGTAATTCGAATAAATTAATTTCTATAGATCTTTATAATATTTAAAACTA TTATTCTAAACAAAAGCAATACGTATATTTTGCAGGATGTGATGTTCGGTGGCACTG AGACGGTAGCTTCCGCTATAGAATGGACCATGACGGAGCTAATGCATACACCGGAA GCACTAAAGCGCGTTCAACAAGAGTTGACTAATGTTGTCGGTCTTGACCGCCGTGTC GAAGAGTCTGACTTCGAGAAGCTAACCTACTTCAAATGTGTCATCAAAGAAACCCTG CGGATGCACCCTCCGATCCCGGTTCTCCTCCACCAATCATCGGAGGCGACAGAAGTT TCCGGCTACCACATCCCTAAAGGGACACGTGTCATGGTTAACGCGTACGCCATAAAT CGTGACAAAAACTCTTGGGAAGATCCCGACACTTTCAACCCATCCCGTTTTTTGCAA AACGGAGCTCCTGATTTTAGGGGAAGCAACTATGAATTTCTTCCGTTTGGTTCTGGT CGGAGGTCGTGTCCGGGAATGCAACTTGGGTTGTATGCGATGGAGATGGCGGTGGC CCACCTTCTTCATTGTTTCACGTGGGAACTACCCGACGGAATGAAACCGAGTGAAAT CGACATGGGTGATGTGTTCGGACTCACCGCACCAAAAGCAATAAGGCTAGTGGCAG TGCCAACTCCGCGTTTATTATGTCCATTGTATTGAAATAATTGTATCTAAGTTTTTTA TAGTTTCATTTTATACAAGATATAAATAATAACATGGAAATATTTTACTTATTGATCT CTGTTAATATATTCCCAAATCAATAAATCTAGTTCAAACTCAAAGTGTTTACGGGAT TTTTTCTTGGCAGATTATGACGAATTGTAAAAGTCCGTGTAATCCAGGTGTAGTTTA GCCATGAAAAACTCAATGGTCAATATAAATGGCTAATTTTTACGAAATATCTCGATT CATGTACGTAATTATCGGTCGCTATTCTTATACTCTTCAATTTTCCACCAACTTTGAA ACAGACATTAAATAACAAAAAAGGGCTATTTGTAATGGATTGGCGAAGGAAGTTTA GCTACGAAAATAACGACAATGTATTTATGATTAGCTAGTTAGCGATGGATGATATTA GCGACGGTTGCGACAAATTATATTGGTGATGGATGTTTTTCGAATGATGACCACCGT GTTAGCGAAGAATTTTAGGGTCTGTTTGGTAACATACAATCATGAAAGAATGTAATA GACAACGTAAAATGGAATGAAATGTAATAGAATAAATTATTACATTTAATTGACAT GTTGATTGACTCGAATAAATGAAATGAGTCATTCGAACATATTATTTGTTATTAATA TATAAAAAATAAAGTAAGGTAAATTTGATAATAAATTAATTCAAGTAATTTTATAAA ATAAATTCTATTATATGAAGATATAACATACTTTATTTCGTTATATATATATATATAT ATATATATATATATANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN TATATATATATATATATATATATATATATATAGTAAATTAGACGAATGGTCACTGTG GTTTGGGATAATTTGTGCGCTTGATCCTTAACTGTTTTTTTAACTCGGACGGTCCCAG AGTTGATGTGGGATGCTCGTGTCGTTTTACAAACCCTAGTCGATGCAAAGCTTCATG GCGACTTTGATGATATGTCATTTTGGTTCCTGAGTT SEQ ID No: 65 >Chicory_ci_vitessa_fr_vl_EVM158591 NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNATATATATATATATAAACTAGTTATCTACAGGG GCAGAAATTAAAATTGTACTGCAGTAATAGCACCATATATTATTTTCCTGTATGTTA GGGGCTTTGTGAGATTGTACCATTGGAATAAGCTAATTTTTTTCAAGATGTGTGGTA TATTGTTATTTTTGTAGCAGCACCCGTAGTATAAAAAAAAATCCATAAATTTTGCCA ATTTTCGAAGAAAATTTGACCAGTGACGAGGCCACCATGTGCCCTATAGCAATTCAG CCCCTAGTTATCTATGTAAGGCCATTGGGAGTGGGTATCACGGAGGGACCGTGATGG CCACATCACTACCCCATCACGGCGTGCACACCGCCCCGGGTGCTCCGTGGTGGGCGT GATCGTGATAGGAAGTGATGGAGATCACGGCTCATCACACCCAATAGGGTTTTTTCC CCCTTTTTTTCTTTTTTTTTTAATTCTCACTCAACCAATTAGAAGCTTGGATTTTTTAT TTTTATGGAATTATTTTTATTTGAAAAAGATGATGTGGTGTGATGGGTATAAAGTGT GTGTTGTGATGGAGTGTGATGGAGTGTGATAGGGGTAAAATCCTATGTGGCGATGA CGTGGCGCCCATCACATTTGTGCAATGTGATGGATACTCCCACTAGCTTAAAAACGG AAATACGAAAATAGTCAACTTTCCGGCTTCAAGTATATAATTATAATATTATATAAT AAAATGCAAACTCGTTCAAACAGAGCTATGCGCTGCATCGCCTTTCAAGTTCAACTA CTGCGCACCCTGTGTTTTTATATATATACACTCGTGCGCTCTTTCTATACCTGGCAAC CTTCTCTCATTGCACTTCATTACCCATATACTTTAAGATACTCACTGAACATAAATTC TTTCCCGGATACTATGGATCCCATGTCCATCTTACTTTACGTTGTACTCCCTCTGTTTA CCTTCTTCCTTCTCTCCCGTTTACGCCGGAAACCTCTTCCTCCAGGTCCAAGAGGGTG GCCAGTGATCGGGAATATGTTAATGATGGACCAACTCACCCACCGTGGCCTAGCTCG GTTAGGTGAAAAATACGGTGGTCTTCTTCACCTCAAAATGGGTTTCAGCCACACGGT CGCTGTCTCGTCGCCGGAAATAGCCAGGCAAGTACTCCAAGTGCAAGACAACATCT TCGCCAACCGTCCGGCAACCATAGCCATCAGTTATCTGACCTACGACCGCCAAGACA TGGCGTTCGCCAACTACGGTCCCTTCTGGCGGCAGATGCGTAAGCTCTGCGTCATGA AGCTGTTCAGCCGAAAACGAGCGGAGTCATGGGACTCCGTCAGAGACGAAGTTATC TCCATGATCAAAATCACCGCTGCAAGTTCCGGTTCCGCTGTCAACCTCGGCGAGCTG GTGTTTGGGTTAACCCATGACATCATTTACCGGGCAGCTTTCGGTTCTATATCTCATG AAGGAAAAGAAGAATTCATAAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCC TTCAACTTAGCCGATTTTATCCCATGGCTAGGATTTATCGACCCTGCTGGACTGAAC ACCCGATTACCCAAGGCCCGAGCAGCGTTAGATGGGTTCATCGATAAAATCATTGAT GAGCACCTGAGCAAGGAGAAGAAAACCGGCGACGAAGAAGATAATGATATGGTGG ATGAGATGTTGGCGTTTTACAGTGAAGAAGGAAAAGTGAACGAAGGCGAGGATTTG CAAAACGCAATTAGACTCACACGAAATAATATCAAAGCAATTATCATGGTAAGTAA TTTGTTGTTTAATATAATATATTTAAAAACTAAACAAGATAGATTTTCAGAAAAACA TAGATCTTCAATAACATTTCTAGAAAAGGCATAAAATAATTTTCTATTGGTTTAGGT AATTATCCTCTTCCATTTAAGTCGTTATCCAATTCAATGATCAGTATGAAAACATGA AATTCGATATGATTTTCAACAAAAGAATTGTGTTAGGTGAAATGGCAAAACATGAC AATATTGATCAAGTCACACTGGGATATGGATAGCTTAATACTTTAATTTGACTAATT GATTGATTACATATGATTACTTTCAACACACTAATACATTATGATTTTTTATTATTAG TTCAGGAAAACATGAATCTTTGTTTAATATATCTTTAACTATTAATCTAGTATTGCTA TAAAATCATTATCTATAGGATGTGATGTTTGGTGGCACGGAAACTGTTGCTTCTGCT ATCGAATGGGCTTTGACGGAGCTCATGCATACCCCAGAATCCCTCAAGCGTGCACA ACAAGAACTTGCTGATGTTGTTGGCCTTGATCGTCGTGTAGAAGAGTCCGATTTTGA GAAGCTAACTTACTTCAGATGTGTCATCAAAGAAACTCTCCGTCTACACCCTCCGAT CCCTGTCCTATTGCACCAATCATCTGAAGCCACGGAAGTTGCTGGCTACCACATACC TAAAGGGACACGTGTCATGGTTAATGCATTCGCCATTAATCGTGACAAGAACTCTTG GAAGGATCCACACATGTTCAACCCATCACGATTCTTACAAGATGGGGCCCCCGACTT TAAAGGAAGCAACTATGAGTTCCTTCCTTTTGGATCTGGACGTAGATCATGTCCTGG AATGCAACTTGGATTGTATGCAATGGAGATGGCGGTGGCTCACCTTCTTCATTCTTTC ACGTGGCAGTTGCCCGATGGAATGAAACCAAGCGAGATCGACATGAGTGATGTGTT TGGACTCACTGCACCAAAAGCGATCCGACTTGTTGCTGTGCCAACTCCTCGTCTGTT GTGCCCGCTGTATTGATCAGAAAGGGCCGGGTTTGAGATTGTGAGAATTTGTTAATG TTGCATTGAAACAAATTGTTCTTTTTCTTCTTTCGGTCATTTCCCATAAAGATAGATA TAAACAAGATCAATAACCGTAAAGACTTTTATTGTCATGTACATGTTGAAAGTAAAA TTTCTTGTGTTTCTTGTGTTCATATTATGTTTTCTTGTTCAGAGAATTTTACGCCAGCT TTGGGTTGAATTGCTGAAAAAGACATTAAGTTCGACTCTATTAATATTCAAGTTGAA ATTAGTTGTCCTTTTGTCAAGTTAAAAATGTCAAATATTTGTAGGTTGCTCAACTACA ACTGATATGAAATGATACCCGATGAATGACGGGGCTTCTTCCAAGTGGGACCTTGGC GTCCTACAATTTCCGATATATCTATTGTTCACAATAATGATATATTAAATAAAGATAT ATTACAAAAATAACAACAAATATATATTATGTCTCCCTTTCACTTGCATATAGATAA CCATGATATATAAAAACAAAATGTTATATTTTTATTACAAAAATAACAAGAAATATA TATTATGTTCTTATTATAAATATAACATTTACCAAATGATATTCATTGTTTACAAGGT CAGATCCCATATATAGTATTTATATTGGGGATTGAAAGAAACTCACGCTTCCCATTT CTTGTATGTCTTTTTGGAACCATATCTAATTCCTTTGCTCTCTTTCCCACCATCATCAC TCACTTTACGTTATCTGTCATGGTTCTCCTTCACCAAGCCCTGGATTTCAGGTTTCTT GGTCCAACCATAATTTCATGATTATCTTGGTCTAAAATTCGCTCTGCTCCTACCACTC TCTAACCCTAAAGTCAAGCATCCACACCACTACTCAACTACACCGTCACCATCATCA TCCATTCATTGCCTTTAACCACCTACCGCCAGGCGCCAGTGGTGCCAATATTTGAAA AAGATGGTGCTTCTGCCCTTCATCTTCTCCTGGTCTTTGCCACTCAAATCTTTATCTAT TCCATGCAAACAAAAAATCTGATCGATCGGGGCTTTCGTTTTTTAAATCGTGTTTGGT TATTTAGATTAGGTTTTTGTGGGGTTTGCACAATATATCGCAGAACAAAGAGAAAGG CGTGGTGTATGGACCTCTGACTTTCTGTGAATGCATTCCTTCAAACTTTGACCAAGCT TTTCATATTTAGCTATCATGCAGTCTTCCTAGACCATGCTTGTTTGCTGCTGCATTTCT TCAAAAATATACAACTCAAGCTTAGAATTTTTTGTGGTTGTTCATATTTGTTTTTCAA CAATTACAACCACAAATTTCCTTTGATTCACACATGAAGATTGCCCTATAAAAGGGA GTAGAAATCAGCACATCAAACCACACCAACAAAACAAAAATCTCACATCTTCTCTT GTAAATACATAAGAGTTTTTAAACTCTTAGTATTTTTATTCTTCAAACATTTTGTAAA CACCACAAAATATATTGAATTGTTTCTCGGCTTCCTTCGCCCGTGGTTTTTCCCGATT TGGGTTTTCCATGTAAATCCTCGTGTCTCTATTTTATTTACTTTATTTGTATTTTTGTT GTGATTATAACCGTTTGATAATTTTGATCCCATTCCGCATTGAGCTAATATTGTCTAA AGTCAATTCGGATCCGTCGTATTTTACAACAATTGGTATCATAGCGTCCGGGTTTTG ATATTAACTTGTTGGGATCATTTTATCAAGTAATAAATCATGTCTTCGGTGAAATAC GATATTCCGCTGCTGGATCGGAATACCCAATTTCCGCTGTGGCAAGTAAAGATGAGA GATATTCTCATTCAGATGGATTTACACAAGGCGCTCTTGGGCTTCGAAAGGATGCCC AATACATGGACCGAAGAAGAAAATGAGATGAAAGATCTGAAGGCTTTATCTCAAAT TCGTTTGCACTTGTCAAACGATGTTTTACAAGATGTTCTAAAAGAAACATCGGCGGC T SEQ ID No: 68 >Celery_RZ_draft_99.605_EVM363634 GAGAATGATTTAAGGTTGGGTTGCTGTGATTGTTGCTTGTGGTGGGTCTGC TGGCTGTGTGTTTGTGTTTGTGTTTGCAGGCTGCGGCTGTGTGTTTATGTATATAGGT TTGAGAGAGACTGTGTTTGTCAAGAATTAGTTAAACAAAAAACGCTACCAACCGCT GAAAATTTCCGCGGTCCGTGCGGAGGGTATTTTGGTAATTACCACGGACCGCTGAAA ATTTCCGTGGTCCCTTTGCTGCTGTTTTAATTACCAACCGTTAGATCCACCATCCAAC GGTGGAGAAACTGTTTGTTGTATACCGGTCTACAACAAATGTTTGTTGTAGACCGGC CCCCATATATATAAAGTCGGTATAGTGGAGAGAAGTAGTGGATGTAGTTATTTTAAA AATTATAAAAACTTTACTATTTTTGGAAATTTTTGAAATGTAAATAATTGGAAGGGG TATGAAAAAAAAGTGTAAACAAATGAGAGGTAAGAAGGGTAGCAAGTCAAAATTT AAAATTATTTTAATAAACATACTAAGAACTTCCTAAACACTACTGAACTCGAAAAAT ATCCGGTCCGAGTGACCAGTGTACTTGAATTAGGTAAGTTGTTGGCAATGTTTTATT ACTCTAAACATGATTATGATTGATCCAAGTTGGCCGTGATGCAAAATTAGACGTGTC AGCCCCGCTACCATACTTAGTCATGGATGACACCAAAATGTATTACAATTTAAAGTC CGTTGCAAACAAGTTAGCTAGACTAGACTTGTTTTGTTCTGATTTCCAGGCCGGCTCT TGTCAATTTGTGCCCCAAGAGGCAATAGCATCTTCATCATACAAATTACTATTTTTAC ATTACACTTTTTCGAGATGTTTAAAAATTTGGAGGCCCTAGACCATCACCTTACTCGC CGCCCTGCTGATTCCATAGTAGTATCTGTTGCTTGCCTGATTATTAAAAGATTTAAAA TAAAAAGTTGTTATAATAAATTGTATATTTAAGGAATCTGTAGGCTATCGCATTTGT AGATTCATTAAAATTCAGTAGGAACATCAAACCTGTCTCTTTCTTTCTTAATCCACTT ACAGACCTCTAATCCCATGTCACTTCTCTTCATTTTGCTCCTAACAATTATCTCAATG ATATTTTTCATATCACGTTTTGGGGGTAAACCTTATCCACCAGGGCCGAGACGCTTG CCAGTGATTGGCAATACGCTGATGATGGCCTGTCTAACTCACCGTGGGCTCGCCAAA CTTGCGAGCCGTTATGGTGGTCTATTTTACCTCCGCATGGGTGCCCAAGACATTGTA GTCGTGTCGACGCCTGATATGGCACGTCAAATTCTTCAAACTCATCAAGACCAAATC TCCAACCGCCCTACTAGTATTGCTCTGGACTACCTTTCATATGGCAGGGCCAACATG GCCTTTGCTGACTACAGCCCTTGGTGGCGTCAAATGCGCAAAATTTGTGTCATGAAG CTCTTTAGCCGTGCACGGGTTGAGTCCTGGAACTCTGTCCGTGACGAGTTAAACCAT ATGCTCCGAGATGTTGCATCAAATGCTAATCAAGCTATTAATCTAGGCGAATTAGTT TTTGGGTTTACGGAGAAAATCATCTATCGGGCTGCGTTCGGATCAAGGTTGAGCGAC GGGGGCACTGAATTTATAAAAATAATGCAGGAATTTTCCAAATTATTTGGTTCTTTC AATGTATGTGATTTCGTTCCATGGATGAGTAGGGCTGATCCTCAAGGGCTTAAAGCT AGACTTCGCAAGGCTCGTGGATCACTAGATACGTTCATCGATTCCATTATAGACCAA CACATAATAAAAAGGAAGGGAAAAAATATAGGTGACAAGGACATGGTGGACGAGT TACTGGCTTTTTACACTGAGGAAGGAGAAGCTAAAGCTGAATCTGATGATTTACAGG CCACTATAAAACTCACAAAAAATAATATCAAGGGCATTATTATGGTAAGTGGACTTT CATTATGCCATTGTTAGAAATTACAGTGTACTGACAAACCAGTCTATATCATAATAA TTTGTTAATTTCAGGATATAATGTTTGGGGGGACAGAGACTGTAGCTGCCGCTATAG AGTGGGCTATGTCAGAGCTATTGAAAAACCCGGAGGAGCTCAGAAAGACTCAGGAA GAGCTTTCCAACGTAGTAGGACTTCATCGCTGTGTCGAAGAGGGAGACTTGGAGAA ACTCACTTACCTTAAGTGTGTACTCAAAGAGACCCTACGGCTCCATCCTCCCCTCCC GTTTCTACCCCGTGCTGCAGCCGAGGATGTATATGTTGCTGGCTACTATATTCCAGC GGGATCCAGGGTCATAATTAACCTTTGGGCAATGGGGCACGACGGGAAGTGTTGGA ATGATGAGCCAGAAGCATTTAAGCCCTCTAGGTTTCTTGATGTGGGAGCGCCAGACT ACAGAAACAACAACTTTGAGTTCATACCGTTTGGGACAGGTCGCAGATCATGTCCAG GCATGCAGCTGGGCCTTCATGCATTTGAAATGGGCTTAGCACACCTTCTTCACTGTTT TAACTGGGAATTGCCTGATGGTATGAAGCCGAGCCAAGTTGACATGAGTGACATGT ATGGACTCTCAGCTCCAAAGGCAACCCGGCTCATTGCTGTGCCGACTCCGCGCCTAC TGTGTCCGATCTGTTAACAAACTTGCAAAATAATGTACTTGAATTATATATCTGAAT AATAACAGAATCAGTTTCATTAAGCGATATGATTAAGACATTCATTGAGAATCCTGT TAATAAATGAACCTCTAGGTAGCTGCAAAATAATGAGAATTCCTGTTATGCCTGTTT CTAACACCTGTAACGAGATGGACCGAATGAATGCTACCAAGTTAAAAAGCTCATGC TATTTCGGAGTTTGGTGACTTCTGCGTTCTAATTATGCAGAAGCATTAGGATTTAGG GGATTCTCGAAAGGAGCGAGCAGAATATCCTTAGTCAAATTGTACTTCAATTTTAAG ATCATGTAAAGCATGCTATATTAGTAAGCTACTCTTCATAATAAAAACTGCATGGTG CTTGTAAGATTCTATGACAAATGAAACTGGATGATGCAAATGATACAAACACATACT AATAAAATCATAAGGTAAATCTGGTACATAAATGAAATAAGATAAAGAGAAAGGTA GGTGTAACAAGATCAACAGCAATGATAAAAATGAATGGGCAAGTTGCCGGTTTCTT CAATTTATGTATAGGGAAGGAACCCAACCAGTGGGTGCAGCTAGGATTATAATTCG GGTCGAGCCGGGTTAGCTTATAAACGAGTCAAGTTCAGGTCAGCATTGCACGACAG CTGAGGCAAACATCGTTCACTTCATATTAACTACTCTTTCCCTATACTGGCTCTATTG ATGTTGTCAATGAGCATGTGGAAAAAAAAGTTACTCTCATATAAAGCTTTAAAACAA TATCGCCCACCGTGGGGCTCGAACCCACGACCACAAGGTTAAGAGCCTTGCGCTCTA CCAACTGAGCTAGACGGGCTTGTGCTTTAATTTACCAAACGTAATTTATAAAGGTAA TTTCTTAGAAAGTTTTGTTTTCTAGTAAAGTTTAATTTTTATTATATTTTGACACCGTG ACTCTTCTGGTACAAAGAAAACACATGAGCTAATACTGAAACTAATGCAATAAAAG TTGCTAAGGGAAAATAGTACCCTCTTGCTTTTTTCAGCTGAAATTTATTTTGGTATAA AGTGAGCAAATAGGGATAAATATAACAGTTTGCAAGGAAGATCACAAATAAATACA AAAAAAAACAAAAACAAAGTTGCACCCAGCAAAGTTCATGCTACTCCATTGCCTTG TTCTTCTCTTTTATCTTGTCACGCAGAGATACTTATTACTTTGGGGGTCGGCGGTATG GGTAGAGGATGTCATCGACACTTGCTTTTACTTGATTGCCTACTTTCCTTACATTTTT CGCAACCCCTGCTGCTACCAGGCCTGCATTTCTTGTAAACCTGAAATGTTTGTTCAA AATTTTTTAATCGTAAGCTGAATGTATTACATTTGGATAAGAACTGAAATAGAGGAG AAATTTAAGAACTAAAGAACAGCACTTCAGCAGTGATTGGGTTTTACCTTTTTAAGA ACTCGTCCCCTACAGACACTGCAGGTTTATGTGTCTGAGGCTGTGGCGATCTACGAT TATCTATATAAAACAACAGTTCGACAACAACTAATTAGAAATAAATACAAATAACA ATGCTAAAAACGTACACCACCAACAACAAACAGAACTATTTGGAGAAGATTCAATC CACAGGAACAATGACCATATTATATAGATACAACAGTTCGACAACTAATAATTAGA AACAAATACATATAACAATGCTAAAAATATAAACCACCAACAAGGAACAAAACTAT AAGGCGAAGATTCAATCTACAGGAACAGTTACAATATTAACTATGTCCGTATTCTAT ATTAAGTCTTCACATCCCAAATTTCAAACACCTAATCTTTGAAAATTTGTTTATTTAC AAATTTCATATTCCTTTAGGTAATATTTTATGAAACACACCACCAAGAAACAACAGC GGCGCCATTTTCTTTCCATCAGATGTATCCCCACTTTGATCACAGCTACTAGTCGAAA CCACAATATAGAATTTACCCGTATAC SEQ ID No: 69 >Celery_RZ_draft_99.605_EVM348724 TTAATAATTATTAGTTATGTGTTTGGAGATTCTCTTGCTAATTTATAACTAC CATAAACAAACAAATCATCATCTTCTCAATCAGACAAACCAAAGGTATGATGACCA GCATGGTAATACAAATCCTCGTAATTTGAACTAATCCGCATAGATAAAGATTAGTAA AATATTTTTTAAAAATTAATGGAATATTGTGAACACTATGGACTGCGAATTTGGAAG GGAATACGTAATAAGCAACATGCGTTCCAAATTCACAGAATGAAAAATGAGTATAT AAAGAGGTACACACCACAAGAAACTGTAGCGGTAGCAACAAATACAAAATTAAATA TGGAACACGATCATATTACATTGGTTCAAAGTATACTACGATCTCCTACTGCCAAAA TGACAACCATCTTCTTCTTTCTTCTATTACTGTGTTTGTTCCTTGCCCGTCGTAAACCA TACCCTCCGGGACCGAAAGGGTGGCCTATCATCGGCAACATGTTAATCATGGACAA GTTAACTCATCGCGGGCTCGCGAAAATCGCAACTCAGTACGGTGGTATTGTCCATCT TCGTATGGGCTTCCTCCACATGGTCACCGTATCCACTCCCGATATGGTCCGAGAAGT ACTTCAAATTCAAGACACCGTTTTTGCTAATCGTCCTGCAACGATGAATATTAGCTA TCTTACTTATAATCGTGCTGATATGGCATTCGCAAATTATGGGCCTTTTTGGCGTCAA ATGCGAAAAATATCTATTATCAAGTTATTTAGTCGTAAACGGGCAGAGTCATGGGAC TCGGTCCGTGACCAGGTTGATGACATGCTCGGAAAGGTGGTGTCTAATTCAGGCTTG TCTGTTAATATTGGGGAACTGGTGTTTGGGCTCACTAGGAACATCATTTACCGGGCG GCTTTCGGATCAATATCAGGCCAGGGTCAAGATGAATTCATCAAGATCATGCAGGA GTTTTCGAAATTGTTTGGTGCTTTTAATATATGTGATTTTGTTCCTGGGATAACCTGG CTTGATCCACAAGGGTTTAAGGTTCGGCTTGTCAAGGCTCGAGAGTCGCTTGATAAG TTTATAGACTCGATTCTAGACGAACACATAGCTAACCAGAAGAGCAATCTAAACGG TTCAACTGACGAGGGCAATGGTGATATGGTGTACCAATTATTGGCTTTTTACAGTGA AGAGCAATCTAAAGTCAACCATTCTGATGATACGAACAACGCCCTAAAGCTCACAA GAGATAATATCAAAGCCATTATCATGGTCAGTGCAACCTTGACGCATCTATTAGCAT GCATATCTATTTTCATATATATGTTAATATGTTAAAAGATGCACACATACAAAGTCT GCTCAAGTACCAGTTTTCCTTTATAACATGATGTAAAGGATAGAGCTGAAAAGAGTA TATTTCTAGAGTAATGTGTAGCAATTGCGTTCACTATTGGTTATGCACATATCCAAAC ATGGTCCCTCTAGACAACAATTAGATGTTTTCCTCATGGTTTAATTACATGTTCAGGA TGTAATGTTTGGAGGGACTGAGACAGTTGCGTCTGCAATTGAGTGGGCAATGTCCGA GCTCATGGGAAGCCCTGAAGACCTAAAAAGGGTTCAACAAGAGCTCATAGATGTTG TTGGGCTACATCGTCGTGTAGAAGAAAATGATTTTGACAAGCTTATTTACTTGAAAT GTTGTATCAAAGAGACTCTCAGGCTCCACCCGCCCATTCCATTACTCCTTCATGAGA CGGCCCAGGAAGCGGTGGTTGCTGGATATCACATTCCAGCAAAGTCACGGGTCATG ATCAACTCATGGGCAGTTAACCGAGACCCAAACTCGTGGGATGACCCAGAAAAGTT TAAGCCATCAAGATTTTTGAAACAAGGTATGCCTGACTTTAAGGGGAGCAACTTTGA GTTCATACCATTTGGGTCAGGTCGAAGGTCCTGCCCCGGGATGCAACTAGGACTATA TGCATTTGAGATGGCTGTGGCTCATCTTCTGCATAGTTTCAACTGGGAGTTGCCTGAT GGTATGAAACCAAGTGAATTGGATACTAATGATGTGTTTGGACTCACTGCTCCTAGG GCCACTCGGCTCGTTGCTGTACCAACTCCACGCTTGTTGTGTTCCATCTGTTGATACA TATCTATCTATCGAGAGAGCTGAGAGAAATTCTATAAATATAGTTCCAACAAAATAT GTGTTAAATTTCCTGACAAAATAAAAAGAAATGATTGTTAAATTTGGAAATATTGTT TTAAAATGTGTAATGTTGGCTAGCCATAAGTGATTTTTAATGAAATTTTACATGTTCA ATCTCTGGTTTTAGCTATAGCGGAAATTCATGTATATGTGCGATTCTCTTCTTTTATA GTGGAGTCGTGTAATAATTATTACATAAACTTTTATTATGATATATTTCTCCAACTCT GTATGTTATGCTTTCTGAATGTATGTGAGTTACTATAAAGTTTGAGTAAGACAATGC TTAAATCTTTTCGTCAATGGTATTGATTACCTCCCTTGTGAACAAAATTATATGGCTC ATTCAAACCTTCATCTCATTCCAGTTCTCACTCGGGGCGGTCAGAATCACTGAGAAT TAATCAACCTCACAACATCATGCAAGTTCAGCAAGTTGCAGGATTAGGAAGTAATG CTTCTAATTATTAGGTAATTTCAGCTGTAGTAAGGGTAGCTTGGTACCTTCATAAAC GTATAATGTTGGCTAGCTACAAGTGGTTTTGAATAACAAGTTATATGTGAATTATCT GGATTCAGATATAGCTTTATGAATGGTATGAACTTCCCTGTATTTGCCATTCTCTTTT TTCTGGCGGTAATAAGCTATATCTGTTTTGCTTTCTGACTGTTTGTGAGTGGGTAATA ACTCTCAAATCCGTTTCCAAAACTTGTCATGAATGACGCGTGACATTTGTAACATTTT AATTTGTGGGCGCACATGGAGTCCATCTCTTGTTATTAACAAAAAAGTTACCAAGTA TTTGCATAAACTGTTGTATCTTAAAATTGATTGAAGTTTGGCGCTACCAAGACCCTTG CTTTGACCATTCCTGTAAATTTTTATGTAACACTTTGGAGTGAAAAAAAAATGAAAT AAATGCCCGGAGAAACAAATATTTGATCCTCACAAGCTTCTTCCTGGTAATATATTG GTTAACAAACGGTGAGAACCTTTTCCTAAGCATAGTTCATTACCTCTCGGATTGACA ACTAACATTTTCGCTGATTTCGGTCTCTTAACGTTGATGCAGACACACTAACCTTCTG AATACTTAGTAATAACACCAGATGAAGGATAAAAATTAGATATTAGCAACTACTCA GAAGAGAGATAAGAGTTAACATACACAAAAGTTTCTTGGTGCATGCTTTCACGATCA AACTCGTTGGTGAGGTCCAAAGCTTTTCGGCCCGATTCACTAATTAATCACAAGCTC TCTAGAATCTAGAAACTCCCATTGCCTACTACTACAAAGTTATAACAAGCAATAGTC AACAGACATGACAAGAAATTTCTTGATTGAAATTTCAAGTTTGAACCTTCAACAAAC TATACAAAGAGATAGTCTGCACGCCATGTAACTTACTGGATCTCTTGACACTTCTAA GCGTCACAAACTCAAGATTTTTATTTTAATATTGCTTTCTTGAATTTTCTTCTTAACAT GCTGGGACATGCTCAGTTTCAACCTTCAACAAGCTTATTTATAGCTTTCAACGTCTAA CAAGTAACATTATGAATATAATATCATATCAATTCCATAATAACCTCATGTGTATTT ATCATATTACAGGGCTGACACAACAAAAAAATTTCGACAAGGTTAATGTCATATTCC CACAGTTTACCAGTTAACCTCTACAGAGGTGCTTTGCCGATGATACTGAAAAGGAGA AGAAGCTTAAATGTGCCTTAAACTTGTAAAAGCCTTCTTCTCCTTTTCAGTATCATCT GCAAAGAATCTCTATCGAGGTTAACTGGTGATTCACATTGAAAATTTTATCTACAGA TGTGACCGATGATGAAATCTGCATATGTGTTCGATAAAATCATCAAATTCTCTATGA GTATCACCTCCTTCCGCCACTGATCTTTTGACAGCAGTCCCCAACTC SEQ ID No: 70 >Celery_c17480_g1_i1|m.26831 ATGGAAACCAACACTACCGCCATGACAATTCTCTTCTTCATTCTTCCGCTG CTTAGTTTCTTTCTCTTGTCCAGCTTTCGACGTAAACGTTACCCTCCAGGCCCGAAAG GTTGGCCCATCATCGGCAACTTGTTGATGATGGACAAGCTATCTCATCGTGGACTGG CTAAACTTGCTGCTCAATATGGCGGCCTTGTCCACCTCCGTATGGGTTTTCTTCACAT GTTCACCGTTTCGACTCCCGATATGGCCCGAGAAGTTCTTCAAATTCAAGACAACAT TTTTGCCAACCGTCCTGCTACCATGAATATTAGCTACTTAACTTATGACCGAGCGGA TATGGCTTTCGCAAATTACGGGCCGTTTTGGCGCCAAATGCGGAAAATATCGGTCAT GAAGTTATTTAGCCGTAAAAGGGCAGAGTCGTGGGACTCTGTCCGTGAAGAGGTTG ATGACATGGTGAAAATCGTGTTGTCGAAGACGGGGTGTTCGGTTAATATTGGAGAG CTTGTGTTCGGGTTAACTAGGAACATTATTTATCGGGCAGCTTTCGGGACGTTGTCG CACGAAGGCCAAGACGAGTTTATCAAGATATTGCAGGAGTTTTCGAAACTGTTTGGT GCATTCAATATCTGTGATTTTGTTCCGGGATTAACTTGGGCAGATCCGCAAGGGTTC ATGGGTCGGGTGGTTAAAGCTAGAGCATCGCTTGATGGATTCATAGACTCAATAATA GATGCACACATTGAAAAAAAGAAGAGCAGTAAAAATGGTATTATCGACGAGGGAA ACAGTGATATGGTGTATGAATTGCTGGATTTTTACGGTGAAGAAAAGGCTAAAGTCA GCGAGTTTGAAGATCAGAACAGCTCCTTGAAGCTCACAAGAGATAACATCAAAGCC ATTATCATGGATGTAATGTTTGGTGGGACGGAGACGGTAGCATCTGCAATAGAGTG GGCCATGTCAGAGCTAATGAGGAGCCCAAAAGACCTCAAAAAAGTCCAACAAGAA CTCGTCAATGTTGTTGGGCTTCACCGTCGTGTTGAAGAAAGTGATTTCGACAAGCTC ACTTACCTCAAATGCTGCATAAAAGAGACTCTTAGACTCCACCCTCCCATCCCACTA CTTTTACACGAGACGGCCCAAGATGCGGAGGTTGCTGGATATCACATTCCGGCAAG GTCTCGAGTCATCATAAACTCATGGGCCATCAACAGAGACCCAAACTCGTGGACTG ACCCGGACACATTCAAGCCTTCTAGGTTTCTACAAGAGGGTATGCCTGACTTTAAAG GAAGCAACTTTGAGTTCATACCATTTGGGTCGGGTCGGAGGTCTTGTCCAGGCATGC AACTTGGACTTTATGCACTTGAGATAGCTGTGGCTCACCTTCTGCATTGTTTTAACTG GGAGTTACCTGATGGTATGAAGCCAAGTGAAGTTGATACTGATGATGTGTTTGGTCT CACTGCTCCGAGGGCGACTCGACTTGTGGCTGTGCCAACTCCACGCTTGTTGTGTCC TATCTCCTGA SEQ ID No: 71 >Brassica_Bo1g005770 ACAATCTGGATTCATGTGTGATTTTTTTAAAATATAGATCCAATGAACCTA TTCCTAGAAAGTCATATTACATTTAATCTATAATCTTATCATTTAAATTTTGGATCTA CCAGAAACTTTTATTGGACTATCAATAGTTAGATTTAAACAGTGGATGATCTATTGG ATTTATAGATAATATAATTAAATAGATATAATTTAATGTTGTAATATTATACCTCTAT ATGTTAAATACTTAAATATTTGTCTATGTTATTTTTTAAAATTATAAAAATCTTTTTTT TAAATAATAAAAATCATATTATCTAACAATGATTAATCTTTACTACCTTAAACCAAT GAAAACAAATTTTAAACTATATAGTTTATTTTAAAAATTAAACAAAAACTAAATGTT TAATTATTTACTCGATAATATAAATCTATGAAGAGAAAAGTTTAATTTCTTAATAAC TTTCTAAATTTGTGAAATGTTACAATATCTTTGAATATGACAATACAATAATATTTTA CTAATCTTTATATATATAGTTACGATTTTAATAATGAAATAATAATCCGAAAATATA TATATATAAGAAGATTCAAATACATGTGAAAGTTTGAAACAATCTATTCAATGAAAA AAAAATACTGTAAACTTATTATGTTTTAAAAATTGATAGACACATATATATTATAAT ATATATCAATTTAGAATTGAAAACAAAATATTTATATAAAAATAAATGAAAACAAA AACCCGCGCGGTTTAGCGGATCGAGATCTAATCTTATATATTAAAACAGAAGTCAAA ACATTGATTCATGTGCGATTTTTTAAAAAATGGACACTCAATAGAAATCAATTATCA TTCATTTATTACTAATAATATGGATTAATAATATATCATTCCTAATATAACATCGACT CCTAAAAATTCGGATTGGTTAACAAACTCACCTTGATTCATGTGTGATATTTTAATTT GGATCATCATTTAAATTTTTTATTAAATGTATTTACTTAATGTTAATATATAATCTTTT AACTACTTAAATCATGATATAATTTGATATCTTTTAATTTAAAATATAAATATATATA TTTATTTTTTTTAACAAAATGTGTTGAAAAACATTATAACAATATCTTAATTATCAAA AATTGTATATAAATATTTTTACTAATTTTGTAATTAGTAATGAAATTAATGTTATTAT ACATTAATATATATACTCAGTTATCTTTTATAAACATTATATTTAACTATTTTTACTAT TTTATAGTTATATCTAACATTTTAAAATAAAATATTGTATTTAACTAAATATGATAAA ATTATTTTAAACTGATAAATTAATATATTTTATTTTCACAAACATTAAAAAATTTATG CTAGAAATATAATATGTTGGTAGAACGGGTTAACATTAGTAAATTAGATAATTCATG TATAAAATTAACTTATCTTAAATTTTTATATATTTATAGTTATTATCTTAAATGAATA AACATAAAAAATATTGATAAAAGAAATCTAGCGCTTTGAATTACGGATCATGATCAT AATAATTGAATAAAAATAATTTTAAAATATATATAATAAAAAATACCAAATATATGT GATGATTTGAAATAATCAACTAACTTACAGCATAAAAACTATCAAATTTTTATATTT AAAATAATTATATATAAACATTTAAATATATATGTAAGTAACTTAAAAAATATATTC TAATTATGTAATATATATATAAACATGAAAATTAATACCCGCATAGTTGTGCGGATC CAAATCTAGTAATAATTAAAAAGAGGTGTATGTATACATATATATGTGTCACGAAAA TGAAGTTCCCATATAAAATTAGAAATATGCAATAAGTGGGACCACACTTTGATTATA AAACCAACCTTTCGTAACACATCCCAAAATGGCGAACTTTGCCTGATCAATTCCTGA GACCTTCCACAAACAATAGAAAAAACATTTCCCAGAAAAAAGAAAAACTAATATGG AGTCTTCTATATCACAAACACTAAGCCAAGTATTAGATCCCACCACGGGTATTCTCA TCGTTGTCTCACTTTTCATCTTCATCGGCCTCATCACACGGGGACGAAGGCCTCCGTA CCCACCCGGTCCACGTGGTTGGCCCATCATAGGCAATATGTCAATGATGGACCAACT CACTCACCGTGGTTTAGCCAACTTAGCTAAAAAGTACGGTGGCTTGTGCCATCTCCG CATGGGATTTCTCCACATGTACGCCGTTTCCTCGCCAGACGTGGCTAGGCAAGTCCT TCAAGTCCAGGACAGCGTCTTCTCAAACCGACCAGCAACTATAGCTATAAGCTATTT GACTTATGACCGAGCCGACATGGCGTTTGCTCACTACGGACCGTTTTGGAGACAGAT GAGGAAAGTTTGTGTCATGAAGGTGTTTAGCCGTAAACGAGCCGAGTCATGGGCTTC TGTTCGTGATGAAGTGGACAGAATGATCCGGTCGGTTTCTAGTAACGTTGGTAAGTT CGTCACTCTCTATGTGCGGTTAAATATTTTAAAAGTGAACAATCATTTTTGTTAGTTT ATTATGCATTTGTTTTCTGTGATATATGTGTATTTTAATAGTCAACCAAAAATATCGT AGGTAAGTCTATCAACGTTGGTGAGCAAATTTTTGCACTGACCCGAAACATAACTTA CCGGGCAGCGTTCGGGTCAGCATGTGAAAAGGGACAAGACGAGTTCATAAGAATTT TACAAGAGTTCTCTAAGCTTTTTGGAGCCTTCAACGTAGCGGATTTCATACCGTATTT CGGGTGGATCGATCCTCAGGGAATAAACAAGCGGCTCGTGAAGGCCCGTAATGACC TAGACGGATTTATTGACGATATCATCGATGAACACATAAAGAAGAAAGAGAATCAA AACAGTATTGATGCTGGAGATGTTGTTGATACCGATATGGTTGATGATCTTCTTGCTT TTTACAGTGAAGAGGCGAAATTAGTGAGCGAGACAGCGGATCTTCAGAACTCCATC AAACTTACCCGTGACAATATCAAAGCAATCATCATGGTAAATATTTTTCACGAGGCA CTAGTAACAGTCATTATTCTTAATGCGTTACGTCATAAAACTCATCTATTAAACCGGT TGTTTTCTCTGCACGTATATATTTTCTGTTTTTACAAGTAGTCTAATATAATATTAGA GAACTTGCGTATGCAGTCGTTTTATTGATAGTAGAAAAATACAAAGGTTTTACGTAT ATCACACGTAAATAAAATCACCGTATTGGAAAACATACTATAAGAACATGATTATA GAGAGGTTCTTGGGGTGAAGTTTTTAGCGGAATATAAGACCATGATTATCCCTAAGG GTTTCTTAACAATTTTTTTTTTACACATCTTTTATCTAAATAAAAAAAAAAATTAAAA AACATACCAATCGCGGGTCGTCGCGTATCGGTGGGACCCGCGAACAGTCCACCAAA CTCATCACAATCGATCCTTATCCTGCATCTTTTGTGACCGTTTTTTAAACTTTTTGTGG GCCCCAGGGCTAAGAAACACTTACAAAACTACCGATATTTATGCTCTAAGAATCCGT CTCTTAACTTTTAACTAAAAAAATTATAAAAAAATTAAGAACTAGTTCTTAAATAAG AGTTTTAAGAGACGGTTTTTATCGTTTTTGATTAAAAATTAATAGATGAGTTTCTTAT ATTTCGCTAAGAACTCCACCCTAAGAATCTCCAGGTAATCATGCTCTAACGTCATGT GAATTGACTTATTTTACTTTTTCGATAGGACGTTATGTTTGGAGGAACGGAAACGGT AGCGTCAGCGATAGAGTGGGCATTGACTGAGTTATTACGGAGCCCAGAGGATCTAA AACGAGTCCAACAAGAACTCGCTGAAGTTGTCGGACTTGACCGACGTGTGGAAGAA TCAGACATCGAGAAGTTGACTTTTCTGAAATGCACACTCAAAGAAACCCTAAGGCTA CACCCACCGATCCCACTCCTCCTCCACGAAACCGCAGAGGACACTGAGATCGACGG TTACTTCGTTCCCAAGAAATCTCGCGTTATGATCAACGCGTTTGCGATTGGACGCGA CAAGAACTCTTGGGTTGATCCCGAAACGTTTAGACCGTCGAGGTTTTTGGAACCGGG CGTACCAGATTTCAAAGGGAGTAACTTCGAGTTTATACCATTCGGGTCGGGTCGTCG GTCGTGCCCGGGTATGCAGCTCGGGTTATACGCGCTTGAACTAGCCGTGGCCCATAT ATTACATTGCTTCACGTGGAAATTACCTGATGGCATGAAACCAAGCGAGCTTGATAT GAGCGACGTGTTTGGTCTGACGGCTCCTAAAGCCACGCGTCTCTACGCTGTCCCGAG CACGCGCCTTATTTGTTCTGTTTAAGTTATGGTTCGAAGCACGTGGCGGGTGAAATG AAAGGTGGTTGGTATGGTTGATGGTTCTTGAAAGTGGTGTGAGAAGTCAAACGAAG CCCTGAAAATTTGTTGATGTTATATAATATATGTTTATGTATTTGTTGTGTACACACG TGTGTTCTGGATGAAACATAAAGTGGCTCTTTGTTTCGTTTTTCATCTTCTTTTGTGG GAATTTTTTCCTTGCATGAAATGTAAACGCTGAAAAATAAGATTTTTTTTTACAACTA ATTTGCATATTACAAAAGTATACTAATGATCCAAGGATTTTGCAAACATAAGCATTT CCATCACTATGAGTCCAGAAAAGAGTTTGGCAACCGGTGAACTAAGTGAAAACTCA TCAACTTTACTATTTGAGGAACCTAATGTTAGAGAAATTTGGAGGCGATAGCTTTCA ATTTTTAGTTTTGAAAAGCCAATTATTTTCGTGTAGTTTTTTAAAAAGTCAGATCACT TGATAGAAAAAGTTAAATTCTAAACTCTTCACGTATTTTCTTATTTAATTTTATTTTG TTAAGGTCGCGTCTTCTCTATTGAAAAGTTTTATAGTATATCTTATATACTCATTCAT ATGGAAAAACATTGTAGTCTTTATTGAAAACGCACCTATCATTTATGTATCATGAAT GTATGTGTTGATTACTTAATTTTAACACCATCGACGATCAGATTTCTAGATGGATGG CAAAATCCATGTTTAAACTACTCACTTAAAAAATAATGTAACAACCAGAATGCATCA AGTACTAAACGATCCCTACTTCAACTACCTTGACGAAATCAATAAATTACAATTACT TAGATTTTTCGTAGCTACACGTAGCACATTCATTAACATATATGTAGTACTATACGTG GACTATCGAATATCACAAAATAATTGCAAACATATGGTTATCAGTATTAAATATGCC CCCTGAAAAATATTCAATCATATAGAAAATCTCCGAAAGATAAGAAAATGACAAAT TTATAGACAAGCTACAAGCTGTGAATTATGAAGCAGTCATCGCTAATATTAGCTCAA AGCCAAACCTAACATTTAAGGCTTGAATATCTAAGCCATAGCTTTGTAAAGAAGTTT GTTCGAGTAGGGTTTGTCATTGTCTTCTAGATAAGACACACATTTTAAATTAAAATA AATAATATATTATAAGTAGAATTATTATAAAGTATAATATTATTTACCTCATTAAAA CCTTTTTACTGCTGACAAATTTTTTTTTTTTACTACTATTATTAATCATAATAACGCAA TGTAAATAAAATTAATTTTAAATGTATAGAACAAGAAGTTTATATAATATATTATAA GAATATTATTATAAACTATAATTTTATTCGACTCATAAAATTATATTTATAATTTATA TAATTTTTTAAAAAATTACTAATATTATTAATCATAACAACACACTGTAAATAAAAT TAATTTTAAATGTATAGAAAAATAAGTTTATATAATATTATGTCAATTTATACTACAT AATTTTTACTTATCATATCATAAAGAACTAAATTCTAAAGTGTTAATGAAAATGAAT AGATTGTTTACTATTTTAAAATTAACTAATGTTTTATTTACTAGCAATTCATAATATG AATTTTAAAGACAATGGATATATCTATACGTTGTTTGGAAAAAGTAAACTTAAAGAT GAAAATATAATGGAAAGAAATAAGGAAAGATAAAAGCCAGTTCAAACAAAAAAAA TTAAGAAAATATAGATAAAAAAAATAAGTATGGAAAAAGGTAAAAATAATAAAAC TAAAGCTTGTAAATTGCCACACAGAACTTAAATTAAATTCACATAAAATAATTTGTG AGTAGATCGAACTCTCAACACTGGAGCCAGACGGGAGCACTTTTACCAACGAAGCT ACAAAAAATTACTAGAACAACTCTAACTGACAAAAATTAAAAAGTAGTCGGAACAC GTGCCCCCGTAGCTTACACTGTAGATCCGCTCCTGGCAGTACCACCAAAAATTGAGA AGGCGCTTAATTTTTGACTTTTAAAGCATTTCCAACCCAACTCCAATTTTTACTCTAA AATGAAATAAAAGTAGATATAAAACAATAATTGGCGGTGCCTCCTTGACTTCACATT ATTTCGTGGTGGAAGGATAAGAAAATGACAAATTTATAGACAAGCTACAAGCTGTG AATTATGAAGCAGTCATCGCTAATATTAGCTCCAAGCCAAACCTAACATTTAAGGCT TGAAT SEQ ID No: 72 >Brassica_Bo7g117840 NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCC AAGGGTTTAGGGTTTAGTGATTAGGATTTAGGGTTTAGTGTTATTAAAATTTAGTTTT TAATGTATGATTTAGGGTTTAAGATATTCCAACGGTTTAGAGTTTATCCAAAGTTTA AGGTTTAACGTTTAGGGTTTAGGATTTAGGGTATAGGGTTTAGTATTTTGCTGAAGA CTTAACAATATTAATTAATTTATTTTTTTGTAACTATTTTTATGTATTTTTATTATTTT ATTTTAAAAATATAATCTAATTTGGATATTTAATTTTATTTCTTTTTTTAAAAAATATC AAATATCAAATATTCAAACACTATTGGTTGGTTCAGAGGTGAACCCAAAAATTTGAC CACAACTTGATTATAAAACCCACCTCTCTAATCACATCCCAAAATGGCGAACTTTGC CTGATAGACCTCTTACAGAAAAAGAAAAAGAAAAATCATGGAGTCTTCTGTATCAC AAACACTAAGTCAAGTATTAGATCCCACAACGGCTATTCTCATCGTCGTCTCACTTTT CATATTCATCGGCCTCATCACACGACGGCGAAGGTCTTACCCACCCGGTCCACGTGG TTGGCCCATCATAGGAAATATGTTAATGATGGACCAACTCACCCACCGTGGTTTAGC CAACTTAGCTAAAAAATATGGCGGCTTGTGCCATCTCCGCATGGGCTTCCTCCATAT GTATGCCGTCTCATCACCTGATGTGGCTCGACAAGTCCTCCAAGTCCAAGACAGCAT CTTCTCGAACCGGCCGGCAACGATAGCTATAAGCTATTTGACTTATGACCGAGCCGA CATGGCGTTCGCTCACTACGGACCGTTTTGGAGACAGATGAGGAAAGTGTGTGTCAT GAAGGTGTTTAGCCGTAAACGTGCGGAGTCATGGGCTTCTGTTCGAGATGAAGTGG ACAAAATGATCCGGTCGGTATCTAGTAACGTTGGTAAGTTAGCTATGTGCGGTAAAA TATGTAAAAAGTAAAAACAACAAACAATGTTTCTCTCTTTTATACGTATTTTAACAG CCATACCAAAAAAAATGTAGGTAAGTCTATAAATGTCGGGGAGCAAATTTTCGCCCT GACCCGAAACATAACTTACCGGGCAGCGTTCGGGTCAGCTTGCGAAAAGGGACAAG ACGAGTTCATAAGAATCTTACAAGAGTTCTCTAAACTTTTTGGAGCCTTCAACGTAG CAGATTTCATACCATATTTCGGGTGGATCGATCCACAAGGGATAAACAAGCGGCTCG TGAAGGCCCGTAATGATCTAGACGGATTTATTGACGATATCATCGACGAACATATGA AGAAGAAAGAGAATCAAAACACTGTTGATGATGGATATGTTGGTGATACCGATATG GTTGATGATCTTCTTGCTTTTTACAGTGAAGAGGCCAAATTAGTGAGCGAGACAACG GATCTTCAGAATTCTATCAAACTTACCCGTGACAATATCAAAGCAATCATCATGGTA ATTTCTTTTTCAAAAGACCACTAGGCACATTCATTATTCTTAATGCGTCACACCATCG AACTTATCCATCAAACCACTAGATTCATATTTTTGTCTAAATGAGGAAGGTAACTTT CTGTATTTACAAGTAGTCCATATGATATTAGAGATTTTGCGTAAGCATTAGGGGAAA ATGACGTCATTTACTGATGGTAAAAACTCATAAAAATATAAAGTTTTAGAAAAGACC TAAAATACGAAACATGTAAAAAACACGTACAAAGGTAATATAAATCACACGTAAAT ATAATCTGACCGTCTTTGAGCTAACAATTTATTTCTGTTTACATTTTAAAATCTAATT TGAATTGATTTATTGAATTTAATAGGACGTCATGTTCGGAGGAACGGAAACGGTAGC GTCGGCAATAGAGTGGGCCTTAACGGAGTTATTACGGAGCCCCGAGGATCTAAAAC GGGTCCAACAAGAACTCGCAGAAGTTGTCGGACTTGACCGACGTGTGGAAGAATCA GACATCGAGAAGTTGACTTTTCTGAAATGCACACTCAAAGAAACCCTAAGGCTACA CCCACCGATCCCACTCCTCCTCCACGAAACCGCAGAGGACACTGAGATCGATGGTTA CTTCGTTCCCAAGAGATCTCGCGTTATGATCAACGCGTTCGCGATTGGACGTGACCC TAAATCTTGGCCTGACGCCGAAACGTTTAGACCGTCGAGGTTTTTAGAACCGGGAGT AGCTGATTTTAAAGGAAGTAACTTCGAGTTTATACCATTCGGGTCGGGTCGTAGATC GTGCCCGGGTATGCAACTCGGGTTATACGCGCTTGAGTTAGCCGTTGCTCATATATT ACACTGCTTCACATGGAAATTACCTGATGGGATGAAACCGAGCGAGCTTGACATGA ACGACGTGTTTGGTCTCACGGCTCCTAAAGCCACTCGTCTTTTCGCCGTGCCTAGCA CACGCCTGATTTGTGCTGTCTAAGTTATGGTTCGTAGCACGTGGCGGGTGTAAAACC AAACGAAGGGTTGGTTCTTGGAAAGAGTTTGAAAAGTCAAATGTAGCACTGAACAT TTGTGGATGTTATTATATGTATGTATGTGTATCACGTGTGGTCTGGATGAAAACATA AATGGCTCTTTGTTTCGATTTTCCTTTTCTTTTGTTGGGATTTTTCCTTGAATGAAATG TAACTGGTCAAATATAGTTTTTTTTTGTTTATCTACATTACCTTTGCATATTACGTAG GTAAACTATTAAGAGTATTGCATTCGTTAGAAATTTTATAACCTACCGACAAATTTC CATCACCATGAGTCTATGACTTAAAAGAGTTTGGCAACCTGTAAAACCAAGTTAAAG CTCGATTTGTATTTTAAACCAGAAGTTAACCCGCGCTACGCGCATAGTTATTTTGATT TTCAAATTTTAACTATATAGATATTCATTTGGACCTTGTATTCTGAACAACAACAAA ATTTTGAATTGTATGTTTGAGTGAATACATATTTACTTAGAAAAAACAAAAAATTAT ATATATTTTTCATATAGATATTTGATAAAGTTTTTCATTTATTATATTGTATATTTACT TATTATTTAGTTTTTCTTATATTGTAGGGCAATTCTATCAAATAACATTTTTAAGTTTT TTCACAAAATAGCCATCAATAAAGAAAATGACCAAAATAGCCCCTTTTATTTTGAAA ATTTATTTTAATTTTAATTTTTTTTAAATTTAAAACCATATCCTCAAAACTCCACCTCT TAACTCTAACCCTAAGTATATATTATTTAACCTTAGGATATAAATGTATTTTTACTCT TTAATAAAACTTCTTTTGGTCATTTTTCTTATTGAGAACTATTTTTGTGACAAAAATT TAAAAGGGTTATCTTAGGAAATTTCTCTATATTGTATATTTATTTATTCTAATTTTCTT ACTTTTATATCAAATGGTAATATTACCGAGTTAAAACTCAATTTGTATTTAAAGTTTA GATATTGTTTTTTTTTTTTTGATAACCGAGTGTTTTGGCTCCACCGTGGTGGTCCAGA CTAGAGACCGAAGCGAGCAAGGACGCTGCCAGGACGTCACCATGTGGCTCATCGTG AACGGTTTTCGATCTCGGGCACTGGGGGATCCGCATGTAAATTTTCCAGTGGCTGGG TTTCGAACCTAGGTGGCGGAACTCACAGCCGTGAGTCCTTTACACCAGAGCTAGATA CCACGGTTAAGTTTAGATATTGTTTGGTATACGAATATGTCACTTTTCAATTTATATA ACAAAATGTCTTTTGACGACAACTTTTATTAGTTTATTAGATAGTTATGTTTTTTCTTT TATATGAAATGTATATGTCATTATCATAATTGGTGTATTAGAAGATGGTTTCTTAAA AGTAAGAAGTTCTGAAATTTGTGGTGAAACAACTGTATATAAAATAGCTGTAGAATT CTTCCTTTTCTTTTGAAAGCCTATTTGTTTTCTTGGTAGGATTAGATACGTAACATGA TAGTACAATAACATGCACCTACCATTTACGTATGTGTTAATAACTTAATTCAAACAC CATCGATGGTGCAATTTCTAGCTGAATATCAAAACTCATATCCAAATTATTCATTTGC TGAGAATGAGTTGCTCTAAAAATCCAAGCCAGGGATCAACTCCTCTCAACATAAAA ATTTATTTAGCCAGTTCAAATAATGCCATATATTAAAAATTCAGTGAATCACGACTA CACTCACCCTGAAAAATTATATGCGTGTTAAAAGCCCAAATCACCTTCTAGTTATAA AACTATTCACTTATAAAATATTTACACATACAATAATTAGCTAGAAGTATTATAACA GCCATAATGCATCCCGTAGTTATTGAATTTATCATTGCATCTACCTTGGCGAAAGCA ATAAATTGCAAATCACTCAAATACGTTAGATTTGCAGTAGATATACACACGTAGCAC ATTCATATTCACGTACGTATGTACCATACGTGGATTATCCAATATCACAAAATAATT GCATATATTATTTTCAGTATTGAATATTCTCTCTGTTTCATAATAAGTGTCATTTTAA CATTTTTTTGTTATAAAAATAGTGTCATTTTACAATTTCAAACAAATTATACTTATTT TTAGTTGAAAATTAATTGAAAACTACATTGATTTTATAAATAATTTTATTATCTCAAA T SEQ ID No: 73 >Brassica_Bo7g119430 AAATCCTAAACCATTACTCCTTTTGGTATGAAACCAATTCGCCGCGTGCTC TGGTTGAATTGATAATCTATAGCAAGTGGTTTCACGGTCAAACTCCTCATGGTTGCA AAGATATCCTTCTTTGAATGCACCTACGTCGCTGCTGGCTCCAATGTAGCTTGTATGG TTGATCTCATGGAGTTGGTGGTCCAGCTACTGACTTGAGGTCCTCATCATGTCTCCAA GGAAACCTCCAAGCTTCTTTCCTTTACAAGGATGTCACTCTTGTTACTTCCTCTATCC AAAGGTTTGCAAGGGTTTGTTTCGTTATTGTTACTTATTATTAATTGAAACCGTCGTA ATATTCTCCTTACTTATTTCAAATCTTATGAATGGTTGATACCTAGTTACGATAAGCT AGAGCCACACATGCCTCAGATTCTCAACGTTTCAGCAGTTGCTATTGAATAAGATTT GAGCGGTGCGATTGCGGAAGAGATTATGAAGGCTATCAAAGAGAGGAATCAAGTGC GGTTATCTCTTACAGATTGTAGAGAGGAACAGGAGAAAGGTATCATAAGCTATGAA TGCCATGAAACCACATTGCGGTTTGAGCCAGGCTCTGATCAGATTAAGGCGACTGCA TATGGGAAGCACCCTACTCATCATCAACCTTTAGCTTATACTAGGCTAATACATTTTG TGATATTTTCGTATTATATACTACCATTCAGTTAATATATTAAAAAAATACAATACA AAGACTACAAAAATATTGGTTTTCGGGTACAATGTTAGAACCTATTCCAATACGAAT GTTTCTGACTATATAGAAGAATCTTTTTTCCCTTCAATATAGATGCTGAACAAATAGC AGCGTCTCTTTAACGAGACAAAACTTGTGTCCAAAAATATCACAAAACCCACGACA AGAAGCCACTAGAGAAGACCTCGATGACCTTAGCTTGCAGTTTCAGTAGTCTATGTA TGTTCAAGAAAAAGATGTTAGTTTAAAAAAGCACGATTGGGTGTCGGAAGTTAGAA ACAGGGACATATCATTGATATCAACACATTTCTGCGATTTCTTCGTAATACAAAGAA CTTTGAAAACTGAAGTAAGTAATTTCTTCTTTAAACCCAGGACATATGGGCCTACAT AATAGCACCAACGAGGCAACGATACAATACTCAGAAATTGCTTACTTAATTTTTTTA ATTCATCTTTTTAATATAATTATTTAACGGTTTTTTTACCAACGAATCATGCTTTATAC TTGCATATATTTATTTGTTTATTGTGATCAAACTCAAAAACTGTACTATCACGTAGCT GTCATGTAAATCTTGAGAAAGCTACATAGTTGGTCTTACAAAGCGTTACCATGCATG TACTTTGTTTTTTTTGAACGAACCATGCATGTTCTTTTTCGTTTGATTATTTACAAACG TTCTTTTTTTTGTTAGATTAGTTCCATGTAATTTTTTTCGTGCTAAAGAAATATTAGAA ATTCTATTCCTCAATTCTCACGCCAAATGTGTACGGTATCTGGTTTCGTCAGAAGTAT TATAAACTGACAATGCTAGCAAATGTTCTTTGACTAGAAAATTACATTTATATCATTT ACAAACTAAAAAATCCAAATAAAATTTTAAATATTTGCATATAATTCTCGAACCCAT AGATCTATTGATCTTTATTGTAAATCTTGAATGTAGATTTCCTATCCAAACTACATAT TGTTCTTTATTAGGATATTGATTATTGGGATATTGACTATTGACTTGTTTTCTCTTTTT TTCTGGTCAAATTTGACTTGTTTTTTCTAAGGTAATAAATGATCTATTAAATACCCAA AACGGAAATAAATCTTTCATTTATATATTGTTTATCATACACATCTGTATGTGCTAAT AAATCAAATACAGATTATACAACCAGATTCGTGCGTATATAACCATACCAAAAACTT CTTATCACCCATCTTTTCGCTCTTTGTATCGGAAAGAAAAAAACATAAAAGATGGAT TGTTTGCTTTGCTCACCAATTTTATATGTAGTTCTTATATTTCTTTGGTATTTAGTTAG AGTTTTGTTAACTCGTAGTAATCCATTTCCACCTGGTCCAAAAGGCTATCCAATAATC GGTAACATGAAATTAAAGAATCAGTTGAATCATCGTGGTTTGGCCGAGTTAGCCAA ACAATACGGTGGTCTCTTACACCTTCAAATGGGTAGAATTCATATTGTGGCCGCTTC AACAGCTGAGATGGCCCGAGAAATTCTTCAGGTATGTGGTTTTCTACGGTTTAGAAA TTGTTTTGACAATTTAAATATTCTTCTAAATATTTTGATAGGATAACAGTGAATTTAT AGTTTTTGTAAGACACATTCATCTTAAAACATTCAATTACGTTAGGTTCAAGATGTG GTTTTCGCAAACCGGCCAGCTAACGTCGCCATTTCATATCTCACTTACAACCGGGCA GATATGGCGTTTGCGAACTACGGTCCACTCTGGCGTCAAATGAGGAAAGTTTGCGTT ATGAAACTCTTTAGCAGAAAACGGGCCGAATCATGGGCCTCGGTTCGCGACGAAAT TAATACGATGGTTCAAACTCTGACTAAACAAACCGGTTCACCGGTTAACGTTGGCGA GCTTGTCTTTGCTTTGACGCGGAACATAACGTACCGAGCCGCGTTTGGCTCGTTCGCT CGCGACGGTCAAGACGAATTCGTAAAGATTCTACAAGAGTTCTCGAAACTCTTTGGA GCGTTTGATATCACCGAGTTTTTACCGTGGATGAAATGGTTTAGTAATCGCGATTTC AGCAAGCGGTTGGAAAACGCAAGGAAATCGCTGGATGGGTTCATAGATAGAATCAT CGATGCACATATCGAAAAGAAGAATTCAAGAAAACAAGACGATGATGGCTTGGAGG ACGACATGGTCGATGAATTAATGGCGTTTTATAGCGGCGAAAGCGGTGAGAACGGC GGCAAATCTAATGATTCACTGTCTTCATTTAAACTCACTAGAGATAACATCAAGGCC CTTGTCATGGTAAATAGTTTAAATTAATCATTCAAAAACCATAAGTTATTAATGAAA TGATTTTTTTTATTTAGGATGTGATGTTTGGCGGGACGGAAACGGTGGCGTCTGCGA TTGAGTGGGCCATGACGGAGCTGATGAAGAACCCTCACGAACTCGTAAAGCTGCAG CAAGAACTAGCTGACGTCATCGGATTGAACCGTGAGTTTCACGAATCTGATCTGGAG AATCTTCCTTACTTCAGATGCGCGATGAAAGAGACGCTGAGGCTGCACCCTCCGATT CCTCTTCTCCTCCACGAGGCGGCTGCGGACTCCGTCGTCTCCGGCTACTCCATTCCCC GTGACTCTCGGGTGATGATCAATGTGTACGCGATCGGGCGAGACGGATCGGTGTGG ACCGAGCCGGATGCGTTCAGACCGGGTCGGTTTATGGATAGCAAAGCTCCGGATTTC AAAGGTAGCGATTTCGAGTTTCTACCGTTTGGGTCGGGTCGAAGATCGTGCCCGGGT ATGCAGTTGGGGCTTTATGCTATGGAGCTCGCTGTGGCGCACATGCTTCATTCATTTG ATTGGGAGTTGCCGGAAGGAGGTAGCTCTGATGATCTGGATATGACTGACATGTTCG GTCTCACGGCGCCTAGAGCCACCAGGCTCATCGCCGTTCCGAGTTACCGGCTAAAAT GTCCGATGGTGATTTGAAATGCGTGTTGTTTGTTTGAAGAAGTTTTATATCAACTGTT TGCCGTTTTTTATGATTCCTTACACAAAGTGTTTGTTGTTGTTTAAGATTCTAATCTAT TTAAACTATTTGGTCCGGATCTTCCGATTTTAAAGGTAAATTCCAGATTAACAGGAC ACGGGAAAAATACCGAGAAAGAAAGGAGTCATTACAAAACCATAAATCAATTCTGG TTCTCCTTAGAACACAAGACCGGTTTGTAAACTAAGCAAAAGCTACTTAGTTAGTAC CTCAAGGGGTAGTGGTGGTGGTGGTTCACTAATCTCCCAGAAGGGCATTCATACGCA ATGTGTCCTCTTCCACCACAGTTTCGACATATCATCAGCCTAGCCGTGCAGTCTCTGC TCATATGACCCACTTGCCGGCAGTTCCTGCAAACCACCTCCTCCTCCCTGTATTGGGC TCTGATCCCTCGTGGTCTTCGCTCTTCTGCTGCTAACACATGGGTTTTGGGGCATTTG ATAGCAACGTGACCAGCCAGGTTGCAGTGATTGCACACGGGATCGTCTCTGCAGTCA CGAGCTAGATGACCAGTCTTCCTGCAGTTGTTGCAGGCTTTCTCGTTAGTGCAATCA GCTGAGAAGTGACCTTGCTTGTAACAGTTGTTGCAGAGTCTCAGGTCACCAGGAGGG AGGTGGCGAGCCGTGCAGTCTTTAGCTTGGTGTCCGGCAATACCGCAGCTGTGACAG ATGCCTTCGTTGGTGCAGCTATTAGACATGTGACCTGGTTCACGGCAGTTCCAGCAC ACAGACTTCGCGGAGCATTCAGACAGATTGTGACTGCCAAGTTTTATTAGAAGAAA AAAAGACAAGGTATATGTTATTAAGTTATCAGTGTCGGCCACAGAAATAAAATACA AAGAATTAGACATACATCATCAACCAATCTAAACACACTACATTATCAAAGCAGCT AATCTACGTTCAAGATTAGTGTATATTAGCACTAAAAATGTAGCAAGAACTTCACTA TAACAATCTAAATCAACTTAGAACGTGAAGCAAAGACCATAAGAAAGAGGAATAGA GAATGGATAGGGTGGTTACCCAGGCAGGCCGCAGTTGTGGCAGATAGAGACATTGG GACACTCTCGAGCAAAATGACCAGGTCGCTTACAATTCTTGCACGTATTACTTTGAC TGCAGCAACAGAATTTTAATGTTAAGCATATCAGTAAAACCAATTTAGTTTCTTTCTT CTCGGTATACAGCTAAGCTATGGGTGAAGTATACTAAGAGAAATGCCAGTTTCGATG AGAAAAACCTGAAAGTCCGATGTGAATCTCTTCGGTAAGGATCATCACGGTAAGAA AAACGATCAGAAGCAATCTTTCTGGCCATCGGGTTCCTACTCCTCCTGGGTGTAACT GGATTTATCTTAGCAACAAAACAAACAAACAAACAAACAAAAACACAACCGGAAAT CTGAAACGGAAGTAAGAAAAGTCACGCATTTGGTGTAGCGAATACGAGATGCAAAG TGTGTCTTAATAGAAAGAACGACGGAACATCCTCCACTTTTTAAAACATTAAAAATC ATTCCTTAACATGCGCTAAAACCCTAACAACTCAATCTCTATTGGACTCTTACAAAT CTTCACCGATAAAATTACATCACTACCTACCTCACGGCGACGACAACCAACTTTCCG ACAAGTAAACTGTCAGCAGTTCGACAAATCTGGCTTGCGGCGACCGAACCTGTGTTC TGTGCGACACCCTCGAACACACACAAAATAACGTCATCAGTTGGTATCTTAGTAAAT GGGCTTCAAAAGCCTTTCGTGACCCATTAACAAAGTGAGACACGCCTGACATGTATT AACCAATTACTGTTATGTTCGGTATTCGTTCACTCACCACTTGTTCTTTTCTGATACG GTCCAGTCTACTACTACTATACGTACAAACATCAAATTTGTAACATCATGGGCCAAT ATCCCATATGCAATGTAAATTTCTAATGTGCAAACAAGAGAATAAAATATGTGTATT CTTGTTTCTGCTTTAATTCATAAACATATGGAGCCCTTTATATATAGGAAATTACATG AAAAGAAAAAAAAAAGACTACGAACATGAAAAG SEQ ID No: 74 >Brassica_Bo3g093960 CTCTTTTAAATTTTTACCGGATCCTAATCCGTGCGGTTAATATATTTTTTTT TAATTTGTAATATTTGATTGTTTTACATTCACTTAGTCATGAATTTTTTTAGCGTGTTA AACCATCTATTGTACGACGAATATTCGATATCATATAAATAAATTCAACATATATAT GTATGTAATTAGAAAATTGTATACAATATATAAAAATAATGTTTTTAAAATATGAAG AAATAAAGAACTATGACTTAGTGTGCCATAGAAAATATTATAAAATAGTTATTCATG TTTAAAGAAAATACAATTTATTAAACTTCTATAAAAAAATTTACATATAAAATGATC GATTAATAAAATCAGGGTGTTTTAAGTTAAAATTTAATTTAGGCAAAGACATTAACT GAACTGGAAAAAACATGAATTAAATAAGATAGTTTAATTTAATTCTCAATGGCATGG AAGTGTAAATAACTTTGAAAACTAAGAGACAATTTATATTGGTACTTCTCTTTTTTTT TTTTTGAAAGAATTTTAAATTTATTCAAATAAAAAAAAAACCTTGATACAGAGATTC ACTGCTTCCTTACTACAAATATTGAAATCAGAAAAACTTCAAAAATCTCATAATTCC TTTAGCTTCTTCCAAACCAATTCTCCATTGTTTTTTCATGCTTCCCTCCTGCTTTCTTT CTAAACGAGGTGATTATGTTGCGAACTATCTTGTCCAATCTATCAATCAGACATGAA ACTGGTTGGGAAGGCTCACCCACCCTTCTCACATTTCTCTCATGCCAAATAGCATAG GCCACCACTTGCAGACAATATCGCATCAAAAAAGTCATACCTCTCCCTTGACATCCT TTCACTATTAATAGAGATGTTAACCTCTACTTGTATTTTAGCTCTAAAAAACCTTTTC TTGTATTCGTAGAGATTTATATAAAGAAAAATCTAAAGATTAGTCTCTTAATTTTGG AGCAAATTCCAAGGCTTAAATCCTATGTTTTGTTTAATGTGATATAGTACCAACTATT TCTTTTACGATCAGGGGCGGATCCAGGATTATATTTAAATGGGGGCACATGAAAATT ATACATTATATTGTTTTAATTGGGGGCACTCCTTATGTTTTATACTAATAACTATAGA AAATTAAAAGACCCCATACCCTTGGCTTTGCGTCCACCACTGTTTACAACATAGTAG AAGAGAAGAGAATGTAGTTAATCAATATTATATAAAGGAGATAACTAGATCTCTTG GTGGTTGAAAGCCAACAACAAATCATTATACGTACATAAAAGGGGCCTAAATCATG CCAAGGAAGTTGGTCACTCTGCCATGATATAATATATAATACTCTACTAAAAATTAA TTATTTCATTTATAGAGCTTGTGGAATCCTTATGTATGCACCCACCCTCTTTATACTA GTCTTCTCTGTTTCGTTTTGCTTAGTTATGCCATCAATTTTTGAATGACGAATTGGATT ATAGAAGCAAAATATGATGAGATAGCGCTGTACTTTCTTTAGTAACATGTATTTTCA ATTTGGTACATCCTTTCAAAACGTTATTGAGTACGTAAATGCACAAGTAGATAACCT TTTCACTTGTAAGATCACCTTAGATATGGGAAATGGAAATAGTTATATCAATGATTA TTGGCATGTCACATGAATAATAAAATAACAGTATATCATAATTAAAATTTAAACGCT AAAACTTAATAGTAATATGCCGAATAATAACAAAATGTTTCACAATGACCACAAAA CAATGTCTATACATAATTTAGTGCCGTATTATTTTTGTATATATGATCTACCACAAAA AAGTTGTTCATTTTGCAAAAGTCAACTCATTCTTTTATATGAAAAGTCCACTCTTTGA AAGTTTTTATATTGTTAAGATGAAAAAAATATACTCATAAATGGGGCCAAGTTATGG TTATAAAAGCTAGCGTTGGCCTTAATAATCACATCATCTCAAATTAGTTGACAAACT AACAATGGAGTCTCTGTTATCACAAACACTAAACCAAGTAATAGATCCCACCCCGTC AGTTCTTCTTATCACCATCTCTCTTCTAGTTGTAGTCTACCTCATCTCACAATGGTTTA AACCGCTCTACCCTCCCGGTCCCAAAGGCCTACCCGTAATTGGAAATATGCTAATGA TGGACCAACTCACACACCATGGTCTAGCCAAGCTAGCCCATAAATACGGTGGTTTGT TCCATTTACGAATGGGATTTCGTCACGTGTTTGCCATCACATCACCTGACGTCGCTCG ACAAGTCCTCCAAGTCCAAGACATCAGCTTCTCGAACCGGCCCGTGAATGTAGCCAT AAACTACTTAACCTACGATCTAGCCGACATGGCCTTCGCTCCTTACGGACCCTTTTG GAGAGAAATGAGGAAAGTGTGCGTCATGAAGGTGTTCAGCCGGAAACGGACCGAGT CATGGGCCTCGGTCCGTGAAGAAGTAAACAATATGGTCCGGTCTTTTTCTAGCAACG TCGGTAAGCCCGTTAACGTTGGAGAGCTCATTTTCACATTGACACGGAACATAACGT ACCGAGCGGCGTTTGGTGCGGCCTGCGAGACAGAACAAGACGAGTTCATAAGGATC TTGCAAGAGTTCTCAAAGCTATTTGGAGCATTCAACATCGCGGATTTTATACCGTTC CTAGGGTGGTTTGATTTTCAAGGGATAAACAAGAGGCTTGTTAAGGCTCGTAACGAT CTTGACGGGTTCATCGATGAAGTTATCGATGAGCATATGAAGAAGAGGGAGACTGT AAACGTTGATGAAGATACAGATATGGTGGATGATCTACTTGCGTTTTATAGCGAGGA TTCATCAACTAATCGTAATAAGAACACCGTAAAACTCACACGTGATAATATCAAAGC CCTCGTCATGGTAAGCCAAAACGTTACCTTTTTTATTTATTGATTTTCCTCTTAGTAA TCATTTAATCCTTGTTCACATTTTCTATAAATATATAAGATAATTTAGTTGTAATAAT GTTTAAGCCAAATTAAAATTATTTCGACCAATTTACAAAAAAGAATATTTGAAGTTG ATAGTTTATACACCATCCGTTCACAAAAAAAGTAAAATTTATAGAGTTTTCACGTTT ATTAAGAATACAATAAATATTTACAATTTAATTTAAACTTTATTTTTCAATACACTTT CTAATAACTATCTACCAATAAAATTTAATCAATTCAAATATTCACAATTAATGTTTCT CAAAAGTATACAAAAGTATCTTAAAAATATAGAAAATCTATTTATTTGGAACACGA ATAAGCTCTAGAAAATCTTACCTTTCAGGAACAGATGAAGTAATATATTGGGATGAC TGATAGTTTCGATAATATTAATTAGTAGCAATTATGTGTTCCCTCTGTTCCTGAAAGT AGGATTTTCTAGATTTATTTTTTATTCCAAAATGATAGATTTTCTAAAACTTTAAGAT ATTTTTAGTAGTTAATGTTGAAAAGTTGTATATTTTTAAGAAACATTAATTGAAAAT ATTTGAATTGATTGAATACTATTGGTTGATATTTATTGGAAAATGTATAGTAAATTA AATAATAAATTCAATTGTAAATATTTATTATATTCTTAATATGCGTGAATACTCTAGA AAATCTTTCTTTCGGGAACAGATGGAGTATTACTTTTCTTGTTTGTATATAAAAATAC CATTTTGGTTTTGGAAATGATATATATCTTTGTGTTACACTGTTCGGAATCATACATT TGATTTGAGATGGAATATAAAGTAGTACAGAATATAAATTATTATATCCCAGTTGAT TATGAATTTGAAATTCGTGATTTTTAACGGTTTTTGATAACTAAAATGGTAGCTCGAT ATACTAATTTTTTTTTTTTGAACTATTAATTTACTTTATTACTGGAAGGATGTTATGTT TGGAGGAACGGAGACAATGGCGTCAGGGATCGAATGGGCTTTGACAGAGCTTCTAC GTAACCCAGCTGAACTCAAACGGCTCCAACAAGAGCTCACCGAGGTCGTGGGTCTT GACCGACGCGTGGATGATACTCACCTCGAGCAACTAACATTCCTAAAATGCACACTC AAAGAAACCATGAGACTCCACCCACCGATCCCACTCATCCTCCACGAGGCTATTGA GGACAGAAAGCTCCAAGGCTTCTTTGTTCCCAAAGGCTCACGCTTGATGATCAATGC CTTCGCTATCGCACGTGACCCGAAGTTGTGGGTTGACCCGGAAGCGTTTCGACCTTC TAGGTTTATGGAACCGGGTATGCCTGATTTCATGGGGACTAACTTTGAGTTTATACC CTTCGGGGCAGGTCGGAGATCGTGTCCGGGAATGCAACTTGGGCTTTATGCGATGGA GGTGGCTGTGGCTAACATCATTCACTGTTTCACGTGGAAGTTGCCTGACGGGATGAA ACCAAGTGAGCTCGACATGAGCGACGTCATGGGTCTTACCGCTCCCAGAGCCACGC GATTGATCGCAGTGCCTGACACGCGCCTCATCTGTCCGGTGTATCCTTGACCATGGA GAGAGTTTTACTGCTCTATTCAGGATTAATGGTTCAAAAGTTTTGTCTTCTCTCTTAA GATCTTGCTATCTTTAAAAAAAATATATATATATATGTTTTTCCACATTGGGCATGCT TTGTTTTTTGTTCACAGGGGATTTTCTTCCTCAAAATGTAACTGTAAATAAATAATAA ATAGGGTAATAAGGTTTTTAGTAATTAAACTCTTCGATTAAAGATGAATGGTAAATA AACCCCTCAACTAAAATTTTGACGAAGAAAACCCTTAACTTTAATTCCGTTAACGTT TGTCACCCTCCGTCACAGTATTTTAGACGGAGGGTGACAGACATTAACGAAATTAAA GTTGAAGATTTTTTCGTCGAATTTTTAGTTGAGGGTTATTTTGCGATCCATCTTTAGT TGAAGAGTTTTATTACTAAATGCCATTAAATATTTTGAAATATTTACTATCATTTATG CATTATTTAAAATTAGGTGTTTTCTTGCACAATGTGCAGTAATAAAATTTTTTAATTT AAATTATATTTAAAATAATTTTATTAATATTTTATTATTTTCTTACCAATATTTTAATA TAAATTTGATTTAATTATCAAAGTACAACTAAACTGTATTTCTAAAATTTGAAGATA TATAAAAGAAGTTAATAATATTACGTTTAAAATTATATATATATTTTTTAGATTGTAA CAATTTTGAAAATCTTTTTAGTAATAAATTGTATAATTATAAAAAATAGAAATAAAT TATTACGAAAGTGATTATTTTATCAAATTTATAACCAATTTATAAAGCTTTATAAATA TTTTACTACTTTATAAATAATTAATAAGGTTTAATAATAACTTTATAAGATTAAAGGT ATGGTTGTTCTCCATAATACAAAAACATGAAGTAAGTAAATAAAAGAAGAAAAGTA AATAAAAAATATTGTTTTATTTATTAATAAGGTAGGAGTATAATGTATTGGTTCCGA AAGCAAAGAGAAAAAAATAGTCATGATTATAATTTTTTCTTTGATTTCCGAAAAAAA TAGTCATGATTATAATTATTAATAAGGTAGGAGTATAATTTATTGTTTTATTTATTTA CTTCATGTTTTTATAGTATGGTGAACAACCATATCTTTAATCTTATAAAATCATTGTT AACCTTATTAATAATTTATAAAAGTATTAAAATATTTATAAAGCTTTGTAAATCGGTT ATAAAATTGAAAAAGTAATGTATATGAATTTATAAATTATCTTAGAGGCTTATAAAT CTATTGTAAGAGTTACCCTTTTAAATAGTGCATAAGTGACAATAAAGATTTTAAAAT ATTTAAAGGCATTTAGTAATAAAACCCCTCAACTAAAGATGGATAGCAAAATAACC TCTCAACTAAAAATTCAACGAAAGAAACCCTCAACTTTAATTTCGTTAACATCTGTT ACCCTCCGTCTAAAATACCATGACGGGGGGTGACAGACGTTAACGGAATTAAAGTT GATGAGTTTTTTCGTCGAATTTTTAGTTGAGGAGTTTATTTACCATTCATCTTTAGTTC ATGAGTTTAATTACTTAAATTCCTCATAAATAATAAATGAAATAAATTTGACAATGG AAGGATTATAAGTACCTTGCATGGAAAGCAACCCCGAGTTGCTGAATTTGAAGCTTT AGGCCTCTACACCATTTTGCTCAATTTCCGATCTTTTTTGTTTCTGTCCAGTGTTGAG AAGCTTCTTCTCTGGTTGAGCCTTTGGCTATATACACTACCTTTGTTCTTCACAATTG AAGCATAGCGGCTATCAACGAGAGTTTATTACCCTACAAAGTGTATTCTGACCATTT ATGTTTCTCATGCATCCTCTAGAATCTACATATGCAACTCAAGGAACACAGCATTAA CATACTTCTAATAAATCACACATAATGTACTCTTATAGCTAATGAATCGAGTAGACC TATCATGAAACATTATAAGTTTAAACTTGAATTTCTCAGACCTAGCTAACATCAAAG CAAACTATCACATAGAGCTTGGATCCCTTTCTGTAAGTGATACAAACCCCCATTAGT TAATGATTTTGCTTGATACACAACTTTGGGGATGAAAGAATTCTCTTTTGCCTTTAGT ATATACGTGCCTTATAGGTCAAGAGTTTCAGAGTATTC SEQ ID No: 75 >Brassica_XP_013607401.1 ATCATCTCTTAACCGACCAGGTAGAACATCCATACGTCCTAATGAACCAT AAATCCTTCTTGTAAATGATCTTACTCTCACTCTATAAAAATGCATGCTTATTTCACA CTCCAAGTCCTCATATTTAATTAAATCAGTTCCATAACATGAAACAACATGAAACAT TTCATGTTATGCCATAATATATAACCTGCAAATGAAAATGTAAAATGTGAGTAAGAT TTTTAATAGTTCACACACCATCAAAATATATATTTCCTCCTTAAAACTTCATATTCTA TCATATCTACAAAGTTTAAGTCTCATTCTATTTCTCCATAAATTGATTATCATAACCG ATACGCTGGCTAAATTTTGAGCAATTACAATTTTTGGGCAGTTACAATTCCCTAGAT GAACCATATATAACACGAAAAGGGGGAAGCACATTTTATTATTCGGAAAGAGAGAT TCATAATGACTTTTAATTAGTTCTAACAATGGAGACGAGAGTGACACGAAGATGTGA AAACAGAAGAAGCCGATGTGTGTTTGATCTATTTGTATTTGCCTTTAACTAAATAAC ATTTCCTTTAGATAGGTATGTTTATTAAAAGATTCAAAAAATGCATATTATATTCATA TAATTTTAGAGTTACATACATGTTTAAATTATGAGTGTTCATATATATGTCGAGTTTA TTTAGATACAATGTACTTAATTAACAGCATATACATAACTTTTTCTAACAACCAATC ATGTTTGCTAAAGATAAAATTCAAAATTCAGAGAGAAAAAAACAAAATAAAGTGAA TAGTTTTGAAACCCCCCTTTTATTTAAAAAATATTTATTAAACATCATAAATTGTGTT TTATTAAATCCAATTTGTGTTGTTCTTTGTTGATCAATATTATTTCTTGTTTAGGGTAT TTTTTCTTGTTTTCTTTACTTTTATTTATTTTTCTTTACTTTCTTTACTTTTATTTACTTT ACTTGAAATTGAATGTGTTTTTTTTCGCATCAAGGCAGAAACCTTGTCATAATATCTT AGTACCTAGTTTCAAAAAAAAAAAATCTTAGTACTTGATAAGTTTAATGTTTTTTTTT TTGAACTTCAATATGTTTGTTTGATGTTTGGACGTCGTTCCCATCTGTTAAAATTTTCT CTTTACTTTTTTCGTACATCAAATTTTCTTTTTACTTAAATTAAATATTTCTAATCATA ATAATATTTTTTGCAAAAGCACACGAGGCTAAAAGATTGTCTCCTATAAAAACAATC CAAATTATAAGATGAATTTAAAATCCTTTTTTTGAACGGCAATGCATTTAAAGTCCA TACATATAAAAATGTACACATTACCAAACAAAAGCACCATCGTTTTTCACGAGTCAT TCCACGATGTGACAAATATTGACCTACCAATACCATCATATGATTATACTGTCCATG TGATCATAAAATTGGCTAAACATCGAGTGAGATCATTGGTTGGTTTTGTTTATGATTT TGTTGAATATCATGTTGTCCCACAAAAGATTTTACGTGGATAGCCAGATAAGACGTC GTCATTGCGAGACGAGGCCTACCATCAAAGCTGAAAAAGCTAAAGAAAAATCCAAC AGTACCATCATACTGACAATATATTTTAACTTAGACATGGTTACCAGACTACATAGA AGATATGAGATCTCGCTTGAACAAAAGATTCTACAGCTTAACTTCAAATCAAAGTTC AATCAACAACGGATTAACCACTACTAAGTTTGCTCCACTCTGTCTCGCTCACTCTAA ATGTGCTCTATGTGCACCTCTTCAACAAAAAAGGTCTCTCTAAAGAATTTTTGTCGTC TACCTAATTTAGTAAATATAGTGAGATGATAATGCAAATATACATGCCATACAAGCT ACTTATCGTTTTCACCAAAATACTATATAATAAGCCCTAATGATCACCCTGAGCGTT GTGACTTCTTTGGTTGTTCTTTGCACCCATGTTCACAAGAAACACATTATTAAAGACC AATTTCAACTAAAATAATAGAAAACATACACAAAAGAGGTATTAGAATTGAGGTAG TTGTTAAGTCGATATCAATCACATAATTTCTTAACAGACATAAAATAGACCCACGCA CACTAACTTGTATCAAATGTATACTCTAATGACACTCATCCTTCTTGTCCCTCTTCTT CTTTTTCTTTTCCGTCACCTCCTTTCACGACGGCTAAGGCAGCGGAAACCATACCCTC CGGGACCCAAAGGCTTACCCATCATTGGCAATATACTCATGATGAACCAATTCAACC ACCGTGGCCTAGCCAAGCTCAGCCGCACATACGGTGGACTACTTCACCTCCGCCTCG GAATTTCCCATCTTTTTGTAGTTTCTTCTCCTCAAATCGCACGTCAAGTCCTCCAAGT TCAAGACCACGTTTTCTCAAACCGTCCAACCACAATAGCAATCCGTTACTTGACCTA CGGGCAATCCGACCTAGCATTCTGCAATTACGGCCCGTTCTGGCGAAGGATGAGGA AACTCTACGTTATGATGCTCTTTAGCCGTAAACGGGCCGAGTCGTGGGCCTCTGTTG ACGAAGAGGTTCACAAAGCGGTCCGTTCTGTAGCGGCCAATGTCGGAAAACCACTA AACGTATGCAAAGTCGCATTCTCCTTAACAAGAGACATAACGTTCCGAGCAGCGTTC GGCTCCTCGTCGTCCAGTTCTAACGAAGGCAGACTAGATGAGTTCCTTGAGATCATA CAAGAGTTCTCTAAGCTCTTTGGTGAGTTTAATGTAGCGGATTACGTCCCGTCTTGGC TCAGTTGGATAGACCCGCAAGGGATAAACAAGCGGGTCGAGAAAGCCCGAAAATCT CTAGACTGTTTCATTGAGTCAATCATCAATGATCACTTAGACAAGAAGAAGACAGA AAAGAACGTTAACGTTGACGAGGTGACCGATATGGTTGACCAGTTACTTGCGTTCTA CAAAGAAGAAGTTAAAGTCAAGGACTCAGAGACCAAAATCAATCTCGATAACATAA AGGGCATCATCATGGTAAAAAATTAAACATACTCCATTCCATCCGTTTCAAATTATA CACTATTTTATTAATTAGTAGAATGTGCAATTTTTTGTTTATTTAACTATTACAATTAT GTAGCATTTATTGTTTAATTTTTTAATTAGTGATAAAAGAGGTAAACTAATAAAAAT GTCATTAAAATCATTAAAATTATATTTATTTTAAATCAAAAATTTTACTCTATCAAAA TAATTTTTTTAAATAAAATGAAATAAAGGATGTGATGTTCGGAGGAACCGAGACGG TGGCATTAGCAATCGAGTGGGTACTAACCGAGCTACTCCGGAGCCCCGAGAACATG AAACGGGTCCAGGACGAGCTAGCGACTGTGGTCGGGCTTGAGCGGTGGAGCGTGGA GGACACGCATCTTGAGAAGCTCTCTTTCCTAAAATGTGTACTCAAGGATACTCTCCG GCTCCACCCGCCGTTCCCTCTCCTCCTCCACGAGACGGTGGAGGAGGCCGAGGTCTC CGGTTACTTCATTCCCAAGGGATCACGTGTGATGGTCACACCTACGCTCTTGGGCGT GACCCGGCTTCGTGGTCCGACCCGGAAATATTCAACCCGAGTAGGTTCTTGGATCCG GGTGCTCCTGATCTGAAAGGAAACAGTTTCGAATTCATTCCGTTCGGGTCAGGTAGG AGATCGTGCCCGGGTATGCAACTCGGGATGTATGCGTTTGAGCTTGCGGTGGCTCAT CTTCTACACTGCTTCACGTGGAGATTACCGGACGGCGTGAAATTCGGTGACGTGGAC ACCATTGAAGGGCCGGGTCTCACGGTTGCTAAGGCTAACTCTCTTGTGGCAGTGCCG ATCAAGCGCCTCCTCTGTCCCATGGTCTTGGAAAGCCACAATGTTTAAAAACTTGTT TTCATAATTATTATTTTACGTTGATATTTTCTTGTGTAATGTATGTATGGTGTTCATGT TTACGTTAGCATTATTTTCTTTAATATAATATCCAAATAAATACATAAAGCGTAAAA TATGGTTATTTTAAAAATATACTAACATCAAGAAGAAAACCATGTTTTTTTCAAGAC TAATATAGTCCCAATGAACATTAAACTAGCTTATGACCATTTTCTGAGTAGTAGATC CAATCATATCTAGCATCCCACAAGAATCGTGCGCCGAATTTTATGAAATAACGAGAT TCTTCATGTATTATGGCAGGACATAAAATATTTCATGTTGTGAATGTTACGAAACTG ATTTAATTAAAAAAAAAAAATTTGAAGAGTGCAATAAACATGTTTTTTTATAGAGTG AAAGGAAAATCATTTACACGAAGGATTTTTCATCCATATGTCATAAGATCATTGGAC GAGAAATCTTTCGTAAAAATGATTTCATTTCGTTTTATAAAAAAAACATGCTTATTTC TCTTTCCAAATCCTCATCTTCTCTATTAAAAGAGAAGTACCATTTTTATCTACTATTT AGAAGTCTACTAGGACCATTTCATTAATCACATAATATGATATAATAATTAATAAGA ATATTAATAATAAATTAATTTTAACTATAGATTTGAATTTTATTTTCAGTTATAACAA AATCTGTTGAGAAAAATCTAACAAAATCCTACTAAATTTTTAAATAATTTTTATTTAA TATTTGTTTAATTAATTTCGTAATTAAATAATATAATGCTTTCATTTAAATAAATTAT CATCTACCACTAAAACGGGTTCAAATTTTTTAATCATGTCAGATTTGTTTTATACAAA TGATGTTATTAACATATGTTAAAAATTTATTTCTACAGCTATATATTTTCAAAAATCA TATGTTGAAGAATATTTTTTATTTGATGATTTCAAATTATGAAAACTCGAAAACGTA ATAAAAAAGGTAAAATGTATAAAACAAACCCCTATATTAATAAAGTAATAAGAAAC TTAAACAATAAAATTAAAAAGTTATAAAATACTAAACACTAAAATATAAATTGTAT ATTTAAATTTATATAATAATATTAAAATTAAATATTTATAAAATGAAAATATACCCG CACTATGTGCGGGATAAACTCTAGTTTTTAATTAAATTAGTTATAACATTCAACAAC ATGCAATATGTCACGTCTTGCCACAATATATAATCTGCAAATGAAAATATAAAATGT GAGTATAAATTTGTTTATAGTTCACACACCATCAAAATATATATTCCCTCCTCGAATC TTTCGTATAGTATCATAAAAGTTTAAGACTCATTCTATTTCTCCAAAATTTGAAAATT TCAAACCTATTAATACACGAAATGCAAGTTTGAAACATATATACACGTTGTCAAAGA AAAAAAACATATATACACACGCAAAGAAGAAATTTCGAATGAAGACAAAATAGTG AAGAAAAATAGCGTTGGATGTGTTCATCATAATATGGGATTGTGAAATTTTTATTTT CATCAATTTCAATGGAGTTATAAGAATGAAGCCAACAACCGGGAATGAGAATGCAA AGGAGGAAAAAAAGTTTTGTTTTTTCTGGGTAAAAAGAAACAAGGTCGTTTTCAAAC AAACATTCCAAGCAATTTACTGAAATATCGAAATAATTTTTTTTTTAAACTCTTACGC TAACAAGAAAAGTAGGTCGTTACTCCAGAAATACTGAACCGTACTTAAGAAACTGC AGCAAACACGAAAACTGGACTCGTTAAAAGACAAAGATAAAGTTAAGCAATCGTCA TTCAAGAAACAGATTAAGAATCGAAAGAAGCATTAAGATTACCTCAACTCGGAGAA TTAGATGCAGCAGCTAGCTAGCGATCTGAATGTTTATCGAGAGAGAGAGAGAGATA GAGATAGAGTGAATGAGAAAGGAAGGGAGTAAGACGAAACACAAGAAGAAATTCT ATCGTTAGTGAAAGAAACTCAAGTTTTTAGCAAAGGCATTAGATATATGGGAATAA GACTATTGGTGAGGAATGGAACAAGAAGCTGTGGTCGGTTGTATAGGAGTGAGGTT AGATTTGGTATAGTGTGTCAAAGTAAAAGGCAAATATACGATTAATATAAGTAATC GTGTTACTATGTCGCAAATCATAAAAGCATCCTCCTAAGTACGATATGTATAAAGTA CGTTAAGTATATCGATCGCTATATAAAGCCAGTCTGGTAGTCTACACTCTATACATA TAGATAGGGACATGGATGCCATGTGCCATTCTGTATTGTACATTCAACTGCCATTAA TTTCCTTGTCCCAGTCTTCTTTTGAATCAATTATCATGCCTTCTCGAATTATTGTACTC TGCTATTGATCAATTTATTTGTCCAAATGTACTCTTCTTTTGAATTATTTACGGGTGTC TTCTTCCACTACTATACTACTTTGTTTTGTTCACCTTTGAAGTGTTTGGAATAAACGG TTGAACGTGTTTAGGGTGA SEQ ID No: 76 >Eggplant_c18725_g1_i1|m.19489 ATGAAAGAGATGGTGCAAAAAAATATCAATTCAATTCTTGAAGCTTTACA AGCTAATCCTATGCTACTCTTCTTGTTTATTATCCCTCTCTTCTTCTTATACCTTTTCTC GACGTCTAGCCGGAGACGTTATCCTCCAGGTCCAAGAGGGTGGCCTCTCATTGGTAA CATGATGATAATGGACCAGTTAACTCACCGTGGTCTTGCTAAACTAGCAGAAAAATA TGGTGGTGTTATGCACCTCAAAATGGGTTATATCCACAAAATTGTAATATCTGGTCC GGAGGAAGCTAGACAAGTACTACAGGTACAAGACAACATATATTCGAACCGTCCCG CGACCGTAGCGATAAGCTACTTAACGTACGACCGTGCAGACATGGCTTTTGCTGACT ACGGACCGTTTTGGCGTCAGATGAGAAAATTGTGCGTCATGAAACTCTTCAGTCGCA AACGAGCGGAGTCATGGGACTCAGTTCGCGACGAAGTGGACTCACTGATCAAGATT GTTACAACCAACGCTGGCACCTCCGTCAACTTAGGGGAACTTGTTTTTGGTCTCACT CGTGACATTATCTACCGAGCTGCTTTCGGGACTAGTTCAGCTGAAGGACAAGAAGA ATTTATTAAAATTTTGCAAGAATTTTCGAAGCTATTTGGCGCGTTTAACATGGTTGAT TTTATTCCATGGCTAGGATGGATTGGTCAGCAAGGTCTAAATGTTAGGCTTGCTAAC GCACGGGCATCTCTTGATGGGTTCATTGATTCAATAATTGATGACCATATTGAAAGA AAAAAGGCTAATGTTACTATTGATAATGGTGACAGAGAAACTGATATGGTGGATGA GCTTTTAGCTTTTTACAGTGAAGAAGCTACAGTAAATGAGTCTGAAGATAATTTGCA GAATGCTATAAGGCTTACAAGGGATAATATCAAAGCTATCATCATGGATGTGATGTT TGGAGGGACAGAGACAGTAGCTTCTGCAATAGAATGGGTGATGGCAGAGCTTGTGA AAAATCCAGAGGAGCTTAAAAAGGTACAACAAGAATTAGCTAACGTTGTCGGACTC AATAGAAGAGTTGAAGAATCTGATCTTGAAAAATTAACCTACTTAAAATGTTGTTTA AAAGAAACGCTCCGTCTCCACCCTCCGATCCCTCTCCTCCTCCACGAAACCGCGGAG GAATCGACCATCTTCGGGTACCATATTCCGGCAGGGTCACATGTTGTCATAAATTCA TTTGCCATTGGACGTGACAAAAATTCATGGGAAGATGCTGATAGTTACAAGCCTTCT AGGTTCCTTAAACAAGGTGTCCCAGATTTTAAAGGAGGTAATTTTGAATTTTTACCA TTCGGGTCGGGTCGGAGATCTTGCCCCGGTATGCAACTTGGGCTTTATGCATTAGAA ATGGCTGTGGCCCATCTTCTTCATTGTTTTACTTGGGAATTACCTGATGGGATGAAAC CAAGTGAACTTAAAATGGATGATACCTTTGGGCTTACTGCTCCATTGGCAAATCGAC TAGTGGTTGTGCCTAGTCCACGTTTATTGTGTACACTTTATTGA SEQ ID No: 77 >Eggplant_sm_67_3_v1_EVM112823_1_ TTATTTCATCATAATAATTTTTAAATTTTTTATCCAAGCTAACATAAATTA AAATGGATGGATTATTAATTAATCATGATAATTGCATAAATCTTTCTTTATCTTGTTA AATTTATGTCCAATCAATAGATAATCATAAATTAAAATGGCCCCCTTATTTAATAAA CCTGCCCTCATATTATCTTCAATCGATCAAAAAGATTTAAGGGGTCGTTTGAGAATT TACGTGGAGATTAGTTATATTGATACTAGTCATGTTAAAAATAATTATATCAATATT ATTATTATTAAAAATAATATTTATGGCATAAGTTTGATTTATACAAAGATTTAAGAA ATTGTTTATTTATAAAAATACTTTTCGCCTTGTTTAGTAGAAAAAAAAATTCAAAGA ACCTCAAGGATATGTATTTTTGTAAGTTTGTTTTATTTCTGTAAACAACTAGTTTGGG ATATATTCATAATAAATAATCAAATAAGGAATAAGACAATACAATTTTATTTTGAAA ATTACTTGGAATATTTATGGCCAAATGGGACCTTAGATCTAGGGGTGTGCAAAAATC GAACTGACGGATAAATCGAATCGATAAAAATATTATTGATTTATTGTTATTGGGTTA TTAGGTTATCGGATTTTTAATAGTATTTGAAAAAAAACTTATTGGTTATCGGTTCGAT ATCAATTTTTACTATTGGATAAACTGATAACCCAATAAGATTATATAAATTTACTATT TTACCCCATCAAAAATATTAAATATTAATAATTTAATAGTAATAGGACACAATAATA GTACTTTACCTATTTTAATCTTTAGACTAGTTACCCACTTTAATAATTAATTATGGCT TTTGTAAGTTAGCAAATGTAGCCTTCATACGTCATTTGCTTTTATTGATGCAAATTCT TATGAAAATTCATTATTGTCGGGTAAATCGAAAACCAAATTGTTAAAGATTTAAAAT CGATAAATCAAAAACTGATAAAAATTATTTTATTGATTTGTTATTAGTTTTATATATT TAAATACTAAAAACTAATAAATCAAATCAATAATATGTAAAATCGAACTAAACCGA TCGATGCACACCCCTCCTTAAATCTATCACTTCATGAGCAGAGCAATTACTCGCTTTA ATTAATTTATGGCAAATTGCACTAGCAAGTAGAAGTATACATAGGTCTATTTGTTTTT TTTTTATAGAAAAAATCAAATCAATTATATTGATTTGTTAAAGTTATAAATCAAATC AATCTAATATTTATTTTTCTTTTATAGTTATACCGTAATTAAAAAAGAGATAGAATTG AAGAGGTTGTTCTTTTGATTGTGTGTGATTTAATGCTTAATGGCATCTCAAAGACATT GGAATAAATAAAGTTTAAAAAAATAAAATGTACAATGACATCTTCAAGACATTGTTT TAGAAAAACATATCAAAAACTCACGAAATGACAATATATTTAATTTTTTTGGTCATA TTACAAGCCTAAATATGAAATGATATATGTAAAAGTTAAAATTTATAGACTAGTTTT AAAAAATACTTACAAAGCATATTATAATAGTAAATAATTATGTATAAAAAAACTTA AATTATAAATGTATTATGTCAGTTTGATTTAAATTCGATTTGATTTATTTTTTTCTATT GATTTATTTTTTCAACACCAAATCAATCAAATCAAACCACTAATTATTATTTTTTTAG TCAATTTCTTGACGATTTAATTTGTACACTCTACTTGCAAGCGATATTTAAGAGAATT TATATATGATATCATGAAGTACAAATTGAAAATTATTTCTTGACTATAGTTTCTTGAC ATTATATGTAGTTGAGCTAAATATCTAACACAATATCCAAGCCAACTTGGTGATGAC ATTCAAATGAAACTTGTATATATAGACCCCCATCATTTTGTATACACTCAAAATATT AAATCTAGCAAGTACATTCATCTCACAAAAAATTCAAGTACCCCTCATAAGATAATG AAAGAAATCATACAAAATAATACTTTTTTCATACTTACTACTAAAGAAACAAACCTC ATGATGCCACTCTACTTCATTTTCCCTATATTCATCTTTTTCTTCTTCACTATATCAAG ATTAAACAAGAAAAATTTTCCACCAGGTCCTAAAGGGTGGCCTATAATAGGCAACA TGATGATGATGGACCAATTGACACATCATGGCCTAGCAAAATTAGCAAAAAAATAT GGTGGTATTTTACATCTCCAAATGGGGTATCTTCAGATGACCGTGGTGTCAAGTCCA GCTGAAGCCCGTGAGGTGCTACAGTTGCAAGATACCATATTTGCTAATCGTCCTACA ACTATAGCGGTGGAATATTTATCATATGCTCGTGCGGATATGGCTTTTGCTAACTAT GGACCCTTTTGGCGTCAAATGAGAAAATTGTGTGTCATGAAACTTTTTAGTCGCAAA AGGGCTGAATCTTGGGACTCAATTCGTGATGAGGTTGAATCCATGACTATGGCTGTT GCCACTAGGGTTGGTTCAAGTGTCAATATTGGTGAACTTGTCTTTGGAGTTGCAAAG AACATTATCTATAGGTAATTAACGCGGAGAATGAGCAGGTTGAATTAAATCTGAGA AAGTTATGGGGGGTGGGGGTCAAATCAATGAAAGGGTCAATGATCCAATATGTCAA ATAACAAGTCTTAACCTAAATCCTTCGACTTGATTTGACCTTACTTGACATGAACCCC TTCTTTTTTATCTTGCTTGTTTACCAAATAAATATGAAAGCTAATATATTTTTTAAAA ATTATTACTTTATACTCTTACATATTTACATGATTCTCGTTTTTCCAAGAGTTTTTAAT TTTGTATATATGGATATGAGATTCATTTGATCTGTCTAATCACATCTTTTTTACTAGTT TTGATTCAAAAATTGAATAAGTTATTCCGAATTCAATTTATTAATTCCTAAAATAAGT TGATTTTGTCATCTCTATCTACAGGGCGGCTTTTGGAACATGCTCGAATAGGGGACA AGATGAGTTACTAAATATCATGCAAGAATTTTCAAAGCTTTTTGGTGCATTCAACTT GGCTGATTTTATACCTTGGCTTGGATGGGTTGATCCACAAGGGTTAAATAAAATGAT CATAAAAGCTAGGGCATCCTTAGATGGTTTCATTGATACAATAATTGATGATCATAT ACAAAGAAAAAAGACTAATAATTATAATGATGAAGGAAATAATAATGATATGGTGG ATGAGCTCTTGGCATTTTATGGCGAAAAAACAAAATTGAATGACTCTGATGATTTGA CGAATGCATTGAGGCTAACAAGGGATAATATTAAGTCCATTATCATGGTAAGTTCAA AATCTTGATGTTCCTATTTCTTTATAGTTTAATTATACCTATCTTTGGTTTCAGTATGT TGATAGTGTAAAAGAATTTTTAATATTATTAAAATCAACTATTGATAAAAAAAATGA GATTTATAATCTAAATCAGATATTAGGTCAGTTAGGGAGTTTAAAGTCATGATACAT GTTTGATAGAATTCAGTTACTCTTAATTTGCTCAAACAATATATTTATGCTACAAAAT TTATTATTATTATTATTATATATGTATGTATGTATATATTAAATTTAGAATTTAATCAT AATTAACAATTGAAATCATTATTCTAACCATCAGAACTCATAAAATTAAAATTTTGA TTCGGTAGTTGCCCTAAAAATTGCACCAATAATGTAAACCATACTTGGCCTACTGTC ACATAATTGTGAGTAGGCCTACTGTCACATAATTGTGAGTAGGCCATGCATTGAAAT TATACTTTTTAATGTTTATAATATTATTGAACGCTTATTTTGGAGTTTTATTTTCTTTA AAAGAGAGAGAGAGAGAAATTCAAAATATAGATTGAAAATATAAATATTTTTACCA TGATCACCACAAAATTTTACCTATTATACCTACTATCTTATGTATCTTAAATCATTAT ATACGAATTAAATATTCATAATATCTTTCAAATGATTTGACAGTAAATTTACCATGA CAGGATATCATGTTTGGTGCCACGGAAACCGTGGCATCCGCCATAGAATGGGCCAT GGCTGAGCTAATGAAAAGCCCAGAGGATCTCAAAATGGTACAACAAGAACTAGCCA ATGTTGTTGGCCTCCATAGAAAAGTAGAAGAAATGGATTTTGAAAAATTGATCTTCT TAAAATGTTGTATAAAAGAAACTCTTCGTCTTCGCCCTCCGATCCCTCTCTTAGTCCA TGAGTCCGTTGAAGATACCACAATCAACAATTACTATATACCAGCTAAGTCGCGTGT TATTGTGAATGCATGGGCTATTGGACGTGACAAAAACTCATGGGATGATCCTGAGA GTTTTAAACCTTCTAGGTTTTTGAAAGAAGGTGTAGCTGATTTTAAGGGTGGTGACT TTGAGTTTTTACCATTTGGATCGGGTAGAAGATCTTGCCCAGGTATGTTCAGACAGA ACTAAAATTTAAAGTTTTTGAAAATATATGAGTTCAAAACTTAATTACATTCATAGT GTATTCCAAGAAAAATATAATGGCACATTCTTAATATAAATAATTTTAACTTTAAAA TTTTCTAATGTTTATAACAATTATTGTAGTCGTAAACTCAGTCCATTCAGTTTAAAAT GAGAAGTAAAGTTAAATAATTCATTTTAAAAAAATATATAAAGGCATTATTCTTTTT TTAAACAGATTAAGAAATAAAGTGTGTCACATGAAATGGAATAAATAAATATTATA TTTTAATAGCTATATAAGTATCATAACATATTTAAGATATAAGTTTCAAAAGTATTTT CAGTTTTCTTGATTATATTTTCATTCAAACACCCTTACATAAAATAAAAACAGGCAG GCAGAGTACATATTTTAGAATATATTTAGCATATATATTTAATATTATACTAATATAT ATTGAAATATGACAAATTCAAAAGTGTGTTACATGAAATAGAATAAAGGAAATATA TTTTAATAGCTATATAAGTATCATAACATATTTAAGAAATAAGTTTCAAAAGTATTTT TCATTTTTCTTGATTATATTTAAACATCATTACATAAAATAAAACAAACGGAGTACA AATATATTTTAAAATATAATTAGCATATATATATATGTTTAATATAATATATAATTGA AAAATGACGAGTTCAAATCAATCCTTGTGGTCTAATCCTTTCCTGGGATAAAACTAC ATGCGATAAAATTTTACAATATGATTCTTTGTTGAATCTCGATCAATACAGAATAAA AGCTTTAGTATTTCGATCTTGTAGTTTAACCCTGCCCTTCGATAAAACAATAATATAC AATAAAACTTCATGATCTAATTCTTTATTGACTCTCAATTCATACTTAGCAAGAGTTT TAGTGTTCCGACTCGTGAGAATTTCAAGCATGTGTGTTTGTGTAGGTATGCAAATGG GATTGTATGCATTTGAGATGACATTGGCACATCTTCTTCATTGCTTCAATTGGGAATT GCCAAATGGAATGAAACCAAGTGACATTGATATGAATGATGTTTTTGGACTTACTGT TCCTAAAGCTACAAGACTTGTGGCTGTGCCAACTCCACGTTTGTTATGTCAACTTTAT TAATTTTGTGAACTAATAATTAGTTAGGAATTCTTAGATATTATATAAAAATATACA AGTATGGTCATGGAAATAAATTCTTGAATGAGTTGATCATGGAATATAGAGAAAAA TATTGTGAAGTTATTGGTTTTCTTTCATGTATTGAACATGCAATATATTGGCAAAACA AAGAAAGTGGATATCTTATATTATTTAATATTATTAACTGTTAATTTAAATATTATAT TTGTGTTGATAAAATTTTATTATGACATATTGTTATATGTGTCTTTAGGTAATGATGA AAAAATTTCAATCTTGTGTGACGATCAACTTGATGTGATTACAAAAAACATGTTTTT TTTTTAATCTTAGTTTAACTTAAGTCACATTTATTTATTTGCACTTAATAAAAGTCTTG ATCTTAATCATCAACTCTAAATTTCAACCATTCAGATCTAAATCATGAAGTGCATTTA ATTTTTTTTCATGTTACGATCACATAGTACATTTGAATAAATTTAAATGATTAAGATA TATAACAAATAACATAAATCAATGGAACATAGTATTGGCACAAATTGCAAATCTAC GTAAAAGTGAAAACTCCTGTGGTAGATAGGTCAAAAAAATGATGAAATTTTTTACTA TGGTCTTTTTTAGTCCACCTCAATTATTCCGACGAATATATGTCGACTTGGCACATCC CACCAACAAAGATACCAAACGACGTAATAGATAAAAAGAAATCTCCTTATGTAATA CACAATTCTCAAACTAACATGTTTTTTGGAAAGAAACAGGAAACAGAAGTTAGCTG ACCTACTTTTCATTAAAATTTACAAAGTTGCATATTCTTGTTTCAGAATCTTACATGC TAAAGCTTTACAGTTGGTAAATATGTGGTCACAACTCACAACAATGAGTAGTCTACA AGAAAAAGAACTGTCAAATCTCCATTTTTACAGCACGACGACCGAAAACAGGATAA TACGTATCCAGCTCAAGTAGTTCTAAGATCTCTTGTGTAGCCCATAGATACGACGAA TGGCCTTCGATGAATTCAGTTACATCAACCTGTAAATGGAGTACCAATGAAATTGAA CTTCAGTTAAATAAACAACTGCAATACAGATAAAGATGGGAATAGAACTTACATTCT CAACACCAGGAACCTCAACTGGTTGAATTCCAGCCAAGCCTTGCGTAAGGAGACTG TTTAGAGAAGAAATTACAGAAGTCACAAGAAAGAAAGGCAGAAAACAGCAAATCA AACACGAAAGCAGATAGTGCGGAAATCCTTCAAACAGCGGCAGTACTTGACATGTT CAACATTAGTACTATGCTTGCGGGCAATGCATACCTGGCACGAAAGGCAACTCCAA GCATCCAATCATTTGTAGAATAAGCATTCACAAATCTACCCGCTACCATCTGCAAAA CAAGAACAGCGAGCTTCAGATAGTAATGAGGTCGAATCCTATACTTGTAAGGAAAA CAAAATATGAACAAAAGGGCATGCGGAATAGGGGAAGACCAACTATAATTAGAAG TACTTAAAATAAAGAAAAACACGAGACCGATAACCTTTCTAGTAGCTTCCCAGTTCA TATCCTTAATTGCAATGGGTGCCCCAAGAAGAACGACCCTTTCCACAAGTCCAGCTG CCAATATTTAAGTACTTCAGGATCTTAAAGCAAATCTGAATGACCCTAAAAGAATAT TAATAATAATAACAGTATGCATATTATGCATTATCTTTCATTAATGAACGTAAGCAC AATGCTTTGTCTTCCACTAATAATAGTAAGCATATTATGCCTTATCTTCCATTAATGA AAGTAAGCACCATGCTTTATCTTCCATTAATAAAAGTAGGCATATTATGCAATATAT CATTCATTAAGAAAGATAATGCAATATATCTTGTCTTCCATTAACAAAAGATAATTA TGTTAAGATTTCAAGTGGACGATAATTTTATTTGGAATTTATTCTCCACTTGGGAATG TTTCCACTTT SEQ ID No: 78 >Potato_XP_006340697.1 ATGATATTGTGTACCCTGATTTCGATTTGTTTGTTTTAATTATCATTTTAAG AGTAAATGATTTCTTTTTCAAATACTTTCTAAATATTTGAAATTGTTAACTATATATA TTTTAACTTATAATAGTTGTTTTTTAAATATAATTTTTAAATAAATGAATTTTATTTTT AAAAAATTAAATTTTTTATAACTAATTTCACATTAAACATTAATTTATGTGTGAGATT AGGAAATATGTACAAGCTTGAGGGAGTTTTTACAAGATTTGACGTTTGCGTGAAAGA TTAAATATACGAAAAAGGGCTAAAAATATCCCTAAAGTACAGGAAAAGGTCTAAAA ACACCCTTCATCCATCTTTTGGTCTAAAAATACCCTTTTACTCTCTCTTTTTTTTCAAA TACTTATTATGTGTCATTTTCTTATTGAATGAAATAAAAATCCACCTCTATTAATTTT CCCCCCATAATTTATCCAAATCAAAACAATATATCTTTTCAAGATCCAAAAAATATA TTTTTTAAATCTAGCAATTTCTATTTTCTATAGCTCTTTTCCAAAAAAAAAAATTGTT TTAGATAATTAAAATATTTTTAAAAATATTAGTCATGCCACAATTACAAAGACATAA TATATTGATATAAATCCTAAAAAAAAGTTGTTCCAATTGGTGCACCAGTCCAAGATT TGATCACTAATGACTTGGATGACAAGATTATTAGTCAAAAAAATTAAATGCTCTTTT TTTTTAAAAAAAAGAAGAAGATAGAATTGTACCCGCATATAAAGTTATGTTTCTTCA AATTTTATTTGTGTAATTTATTTATTTTCCATATGTTTAAAATTTGTTGCAAACAAATT GGCATGCCTAGTGGGACCAAATCTGCGCTTCATATCTTCTCTCTTAAATCAAATATG AAAATCTAAAGCTGCAAAGGTGGAAGAATGAGTTCTTCAAGCCTCGTCTTTGAGTTT CATCGATTCTACACTCCAACAAGCCTTGAAGCAAGGGGCATTTGTAGACATTGAAAT TTTGCGGACTCTACAAGACATGTTCAATTCGAATTGGGACTCTAGAAGGTGTGTTCA GTTTCAATTAGAATTTTTGGAGTTTACTCAACCCTAAACCCTACTTTATGCCTATATA AAAAGTACTAAACTCCCTTAAAGGAATCGCAAAATATCCATAAACTCTTGGGTATTT TTAAAGATCAAGATCTCGAATATTCCACAAAAGTAATGGAATATTCATATAGAAGTT AAATCTAAATCATTCTAGTTCGAGAAATACGTCACTAACGGCCCTCGAATCATGGAT AAATCTTAGGAGAGTAGAATCAAGAGAGAAACAGAATTGTACCCGCATATTTATCA ATAAAGTTATGTTTCTTCAGATTTTATTTGTGTGATTTATTTATTTTCCATATGTTTAA AATTTATTGCAAACAACAATCTCTCAAGGCCTCAATTAATTCATACATTACTTCTTCA AATTTTAAATCCTCTTAATAAAATTTTTGACTCCACACGCCATGGTCCAGTTCGCCAA ACTTAGGCAAAAAATTTTGGTGAATTTGGCCGTTCAGCTACCTGAAGTACAAGATGC TAGTGACTAGTTCCCCTCTCATATGATTTTTTATTTTTGGTTCCCACCCGGTGTCCAG AGCCCACATTGAACTGCATGGCTCATTTGGGGGGGGTGCTCCCAACAAGACTTTCTA CATAGTCAGGGCTCGAACCCGAGACTTCTGGTTAAGGATAAAAACACTTCAACCAG TACACCACAACCCATGGTGGTCCTCTCATATGAAGTTGTGGACTAGCTTGGGTCAGT CTTTGACTTAAAAGACCAATCTACAAATAGTTTAATATAAAGCTTAATATAATAATA TGTATTGGTATATTTTACTTGACATATAAAGCATATTTTTTTCGCCAAATCAACAGTA TACACCAACTTGGTACCGACTGGAAGTGGAATAAATTTGTATATAAAGACCCCATCC TATCCACCAATAAAAGGTAGAACCAAAATTTTGAGTTCATCCCAACAAGTCCCTATC TCCTACATACTCCACCACCATCTCCCAAAATCTCCACTGAAAAACAAACCAAACATA TCAAAACAACAAAGAAAAAAAGAGAGAATTGTAAACAAAATGAAAGAAATGGTAC TAAACAATATCAATTCAACTCTTGAAGCTTTACAAGCTCAGCCCATGCTACTCTTCTT CTTCATCATCCCTCTCTTCTTCTTATACCTTTTTTCGACGTCTCGCCGGAAACGTTATC CTCCAGGACCATTAGGCTGGCCTCTCATTGGTAACATGATGATGATGGACCAGTTAA CTCACCGTGGTCTTGCCAAACTAGCACAAAAATATGGTGGCGTATTTCACCTCAAAA TGGGTTATGTCCACAAAATTGTTATATCTGGTCCAGAGGAAGCTCGTCAAGTACTAC AGGTAGTATTGGAATATCTGACCATCTCATCTAAAAAGAATTTATACGGACGGTATA AATAATTTGTCAGTAGTATAACATAACATATTGTAGTACTACTAATTAATAAGTTTG GGTATCTTATTATTTTTCAAATATTAAATTAAACAGATTATTTAATTTCTAACAGGTA CAAGACAACATATATTCGAACCGTCCAAAGACCGTAGCCATAAGTTACCTAACGTA CGATCGTGCGGACATGGCTTTTGCTGACTACGGACCCTTTTGGCGTCAGATGAGAAA ATTATGTGTTATGAAGCTATTCAGTCGTAAACGAGCTGAGTCATGGGACTCAGTTCG CGACGAAGTGGACTCAATGGTAAAGATTGTTACAACCAACACGGGTACATCCATTA ACTTAGGGGAACTTGTTTTCTGTCTCACTCGTAACATTATCTACCGAGCAGCTTTCGG AACAAGTTCAGATGAAGGACAAGATGATTTTATTAAAATTTTGCAAGAATTTTCGAA GCTATTTGGTGCGTTTAACATGGCTGATTTTATTCCATGGCTAAGGTGGATTGGTCAG CAAGGTCTAAATGTTAGACTTGCTAAGGCAAGGGCATCACTTGATGGATTTATTGAT TCGATTATTGATGATCATATTGAAAGAAAGAAGGCTAATGTTATTAATGATGATGGT TATAGAGAAAGTGATATGGTCGATGAGCTTTTAGCTTTTTACAGTGAAGAAACAAAA GTAAATGAGTCTGAAGATTTGCAGAATTCTATAAGGCTTACTAGGGATAATATCAAA GCTATAATCATGGTAAGTTTTTAACCTAATGCTTTTCCGTACATTTTTTTTGTGTGGTT GATACATGTTCCAATTAACGTGTCATAATTTAAATCAACTCGTGGTTTAAAAAGAAA AAAAAAACTAAATTTGTACTTGTGGCATTTGTGGTTAAAAAGAAACATGTCATGTGA CAACAATTTTTTTTTTTTTAAACTTGTGGCATCAAATATATCATTTGATCAGGGAAAT GAGAAGGGTAAACTTTGAAGTTTGAATTGATAAGAGATTTAAGAAAGATTCTTTTTT TTAGAAAAATAACTAGTAATCTTAAATATGTCATAATATTTGTGTGATAATAACTTTT TTGAAACTTATGTCATAATATTTGTATGGTTACAGAAGATTCTTGTTAAGGTAAAAT AGGAAGTACAAAGTTGATAATTTTCAAATTTTAAAAGTGACATATTTTTAATTAACA AAAAAGAAAATTGTTTTACATCAATCGAAAGGAATAGTATATTGGGAAAATACAAA CAAATAAAAGAGAGTATTATTTTAACATAAATTAATTTGATGTTGAAAATCTTGCCC AAAACAAGAAACTTTAAATTTTAATCAGTTGCTACTAGGTAGGATCACTGAACACGG CTATCTCTGGCAGCTCATGTATAACTATCAAGAATAGTGGAAGCTTAGGAAACACTA TTATTTTTCGTGAAAATATGTGCAATGTATAATTTTAGTACTTTACTTATATTTTAAA ACTTCCTTTGTTAGATGAAAATTTTGATAATTATTTAATTAAGTTGACTCTTTATGAT TTGTTTTTAGAATAACAAGATGCGTTAAAGTTTCTCAATCATCACAAAATTGATATT AAGAGTGAAAAGAAAAAATATTATTGAAAATTGATAACCTAGTATAATAAAATTTG TGCTACCCCATATTTCTATGGTTTTAGCATCACCTAGCTAGACTTTAATTCAAAAATT TGATGAAACTTATTACTAATTCAATTCATTATATAGGAAAAAATCTCCCTTTAATTTC CAATTTTTCATACAACTTGATCCTAGTGGAATGTCATAAAATAGAAACATTAATTTC CTCTAAATCATTAGCTTCAAATCATTTGTTTTTTTGAATGTCTCATCAATATAATAAA CACCAAATATGATTACGACTTTATCTTGTTATATACGATATAATTGTTAATGTCCTAG CTATGGTCTACTATATAGTTTTCTAGAATTAAATAGTACAAAGGAATTAGCGTACTG TACAACTACTAGATCTTATAAGTAGATTTTTATTTATTTATAGGTCTCTCTACTGATG ACATATATCATGAGACTAATAAGTTGATTTGAACTTTCCCTATTAATCTTGATTTTAG CTTCAATGCTATCCAATATTTTGCCAAGTGGCACAAATGGAAGATTTATTAGGTAAC AAAAGTTTTCAAGTACAATTGCCTAATGTTTTTAATGTGAAAAAGTTACTCCAGAAA GAATTTACTAATGATTAAATAAAATCATACTAGCCAATGAATATACTTAACGTGTAA AAAATGAGTTAGAGCCGTAAAAACTATATTCTATGATTAAAAATTCAAACTGGCCA ATAAATACCTATCTAGAAAATTTGGTACCATTCCTTATCCCTTTGAAAAATCATTTTT CCGAAAACGATGTACAAGTTATAGTTTATCTTACTTCTACCTAACCCCCTTACCTAAC TACATACCTATTTAACTTTTATAAGCCCACCATATCAAAAAATAAAATAATATTGTT ATGTATTATATTACTTGACTCGTATTGATCTGACGTGGAAGAGAATCGCAGGATGTA ATGTTTGGTGGGACAGAGACAGTGGCATCTGCGATAGAATGGGCAATGGCAGAGCT TATGAAAAGTCCAGAGGATCTTAAAAAGGTACAACAAGAATTAGCTAACGTTGTTG GACTGAATAGGAAAGTTGACGAATCCGATTTTGAAAAATTGACCTACTTAAAATGTT GTTTAAAAGAAACTCTCCGACTTCACCCTCCTATCCCTCTCCTCCTCCACGAAACCGC GGAGGAATCGACAGTCTCTGGCTACTATATTCCAGCAAAATCACATGTTATCATAAA TTCATTTGCAATTGGACGTGACAAAAACTCATGGGAAGATCCTGATAGTTTCAAGCC TAGTAGGTTCCTTAAAGAAGGTGTGCCAGATTTTAAAGGTGGTAATTTTGAATTTTT ACCATTTGGGTCGGGTCGAAGGTCTTGCCCCGGTATGCAACTTGGGCTTTATGCATT AGAAATGGCTGTGGCCCATTTACTTCATTGTTTTACTTGGGAATTACCTGATGGGAT GAAACCAAGTGAGCTAAAAATGGATGATATATTTGGGCTTACTGCTCCATTGGCTAA TCGACTAGTGGCTGTGCCTACTCCACGTTTATTATGTAATTATTGAAGGAGAAAAAA GGGTATTTTCTACGTGTATACGAATAGTTATACACAAAATATTGGTTTGCTTGGACA TGTTTATCTTTTTTTGTTTTGTCTATTAGATGTAATAATAGATGCATATACATAATGG AGAGGACGAAAATAATTGCTTGAAAGGGAAAAGAGAGAGGAATTGATTATATGGTA TTTGTGTATAGTAGACACTATATATCTCTTTCCTTTTGTTTTTTAATATTCATTTGGCT TGCATTGTTAGTTGTAAATGTCCCCTCCTCTTGTTTGTTTCTTCTTTGAAAACATAATT TTAATCAAATAAAGACTTTATCCTTGTTACCTTATTGTATTATAATGGTTCATTTTGA TTGGATCAGTAAGGAGAATTCAGGTAAATAGTCCGACAAATTTACTGTTTAATTTTT CTGATCGTACATAGATTACACATTAATTATACATGATTATATACATACACACACAAA TTTATACACGATTACGGAGGCTATTGTGTTCTTTTATGAGGGAAAAAAAAAATGAAT TTCCATATCCTGTGACACCCAATCGGGTTGCTTCTAACCAATACCCCCTTTGCTTCAG AAAGCAGGAAAAGGATATTTATCCTTTTGATATTCACTTTTTACCTGTTTAGTTTAGA AAATCTAGAAATATTTTATTGTTTATTTTTTAATTTATTCTTATTATATTAATTAGGAA AAATGCATAAGTACTCTCAATCTATACCCAATATTCCAAAGACACACTTATACTATA CTAAGATCCTATTACTCTCGAACTTATTTTATAAATAATTTTCTACCTCTTTTCGGCCT ACATGGCACTATCAACCAGATAGCTTGAAAAAATTGTCAACACGCGTTGGGCTCAG AAGATAGTGCCACGTAGACCGAAAATGGGTAGAAAATTATTTATAAAATAAGTTCG AGGGGTAATAGGACCTTAGTATAATATAAGTGTGTCTCTGAAATTTCGGGCATATGT TGGGGGTACTTATGCATTTTCCCTATTCATTATAATCCTCTTTCAATGCATTCTTCAA AGCATTAAATTTGTTATAACTAAAGGGTAAAGCATGTTCTAGGTTAATATTAAACAA GTAAAAATGAACGAAATGAATAATAACAAAAAAAATAGACACATGAAAATGAATG AAAGAAGTAATAACAAAATAAATCTGATAATGGAGGGTAGGGTTGAGTAGGTCCAA AGCTGTGGAGGGGACCGTTGAGAAGGTTTGAATTTCGACGCTGAAAATTAAAATAG AAGGACACGACACTAGTAAAGGAAGGGAAAATAGAGGATCGAATTCTTTTGTGAAA GTTCAAATAGTTAATTAATGGAGTTATTAATTAGATGTTTCATGTCATTAGTTTTTTC TTCTTAAATTAGTGTAAGACAAAGGAAAATAGGGAATCAAACTCTTAAGTGAAAGT TCAAATAATTAATTAATTGAGTTACTAATTAGATTCTTCACGACACTATTTTTTATTC TTCTTAAATTAAGGTAAGGAAAGAGAAAATAGAAAATCAAACTCTTTCCGTGAAAG TTCAAATAATTAATTAATTGAGCTACTAATAATTATTTTTCATGGCACTAATTTTTCT TCTTCTTAAATTAGGTAAGGGTAGGAAAAATGGAGAATAGAACTTTACATGAAAGT TCAAATAGTTAATCAATTGAGCTACTAATGGATTTTTCATCGCACAAGATTTTCTTCG ACAGGGAAAATAGAGAACCAAACTCTTAGGTGAAAATTTAAATAGTTAATTAATTG AGATATTGATTAAATTTTTCACATCTGTTTCTTGAATTAGGGTAATGAAAGAGAAAA TAGAGAATCGAACCCTCACGTGAAAGTTCAAATAGTTAATTAATTAAGCTACTAGTT ATTAAATTTTTCACGGCACTAATCATTTTTTTTCTTCTTAAATTAGGGTCAGAGAAGG GAAAATAGAGAATTGAACCCTTATAAAAGTTCAAATAATAATTAATTATGCTACTAA TTAGTTTTTTCACGGCACTAGTGGATGCATGGTTCCAAATTAAAGTAAGCCAATTTTT CAACTCCCCAAAAATGTAGTTGTTGTAGAAAGTTGACACTAATTGGAAGACGTACG AAAGCAACCTTAATTGAGTTGAATATGTGATGCATTAATCATAGGGAGTTTAATTAC GTTGGATAATCTTGAAAAGTTTAATTTAGGGATATTAAATGACAAAATTTCTTTTTTG ACATATAAGAATA SEQ ID No: 79 >Apple_XP_008372753.1 AGCCAATTAGGGTTTTACCCAAAAATTAAAAAGAAACCCACAAAATAAAT CAAGATTTGTTTTCCAAAGAAGCACCATCATAATTTGACTAGTAATTTAAGGAACCA ATATGTAACTCACACATATATATATGATTCAATAAAAATATAAGAGACTAAAAAGA GTGCCCAACTGATAACTAAAACTTGATTTACATGATATTTTTTTAGGAAACAAATCA ACAATCGCATGAGATTCGATCAATTTGGTGAATATATTTATATTTGGGTGGAGAGGA CCAATATGCCTCACATGTATGTGACTAGTTCGACGAAAGTCCACAATGGCAGCAGCT CTTCTTGTTGCCTTCCAGCCATGGTTGAACTTTAGAACCATTAATTTATTTTTCTCAG GAAAACATTAATAAAAAAATGTCAACACATATTATCCAAGATTCGTCTGTAAGTTAT TTTGTCTAAATTGCAAGAGCTGAACTCATTTCTTGTAAGTTTAGTTTTATTTATTAGT CCTTTTATTGAAGGAATTTCAGATAATCAATTCCATTTGCTGTACGAAATCTCTGTTA ATTAACTTAATTACATGTATATCTCTTTCGTGTTAATCAGTTTAAGATGTACTTAGGT TTCCAAGACATATAAATTATTTCAAGGCGCCACATAAGGTATATCTTATAACCAAAC CATGTTTTCTTGTAATCATGTATATGCATAATAATATTTTATTTTGACAACATGATAT GATGTCTATAACGTAAAAGTTAATATTGTTATAACAATAATGATGTCATTATGTGTT ATGTAACTAAAATCTTACTATTATTGTGTAACCTTAGACTATAAATCTTAACGATTAT GGTGTAATTAACCTTATATTTCTTGTAGTCCAGACGTTGAATGTTAACATTATTTTAT AACACCAAATGTGAAGGTAAAGAGTCAAAAGTGAATACTGATAAATGTGAGATTTC TTGACGTCTATTTTTAATAACTTGCGTCTATAAACGCTATACTATAACAAGACATTCA TAACCATCAAACATTAGTGTAACAATATCATTCCATAACCTCGATCACTATTTATGT AACGTTGAATAGTAAATGACAATTATAATATAATTGTTGTTATACAAATGGTGGCGT AGAAATTTGCTTTATTAATTTGGGACTTATTTGTAAAAATATCAGTTGTTTTACTTCA GACAAAGTCAAATTGAAGCAATTTTGTGACGTTGTTCCTATGAGTAGACTCTATCGT TCCTATGAGGAGACTCTACGAACTCTCTCATTTCTTGTTTGTTTTAGGTGGAGCGTCT TACTATTAACTAATTAATACTCCCAGTCCACACTTCATATATTTATAATCAAATTCYT ACGTCTCTACTATGATTGGATGAAAGAAATAAACTTAGAATTTAGATAAAAATCAG AATTTATAAATTGATATACACCAATTCGCTTGTTTGAATTTATAAACATAGAAATTTA GAATTTCAGCGTGAAAGAAAAACTTGGAATTTAGGACCTCCAATTCCCAAGTTTAAA TTCCATGTAAATAGGTATCATTTCTCAATTTCTATGATTGAGAGTTTAAAATTAACAA AGTTCATTCTCAATTYYATTGTTCTTTTAGGTTAATCAAATAAGAAAATTCATAAATT TTAGAAAATAAAATCTCGTCATTTTAAAATTTCTTAATAACTTTAAATTTCTCCATTC AAACATAGTATAAACGTCGAAACGGCTCGAATTTGGATAATGAGAAAAAAAAGGGA TTCAATCCAAAAATCCCCAAACTTGGTTTCTTGTCCCATACTATTTCTTTTCTTTTCCA ACTTTCATACCATAAAAATACTATAAACAAAACTAAACAATCTCAATTGTTTTTAAA TAGTTTATTTCTCGATAGCCTGACCAAATTCCACTGTAGCACTAAAAAAATAAATAA ATAATCCAACAGTTGCACAAACTTTGTATATAAAAGGCACCATAATATCTCTTCCAA CTTAGCAACATTTGGAGGTTGCCCTGCTACTTCTGCTAATCATACCCACGAAAAAAG GTAAAAACAAAAAACAAAAGAAACACACACAATATGGATTATCTTCTGCAGTCCTT GCAACCCTTACAATCCATGACACCACTCTTGCTCATAATCCCACTCCTATTTCTCCTC CCTCTAATTTTCCGTTTCCGGCGACCACCACCATACCCGCCCGGCCCCAAAGGCCTA CCCCTTATTGGCAACATGTTATTGATGGACCAACTAACTCACCGGGGCCTCGCCAAG CTGGCCAAGAAATACGGCGGCATATTCCACCTCCGCATGGGGTTTTTTACACATGGT TGCGATTTCCAACCCTGACGTGGCACGACAAGTCCTTCAAGTCCAAGACAACATCTT CTCCAACCGCCCGGCCACCATCGCCATCAGCTACCTCACCTACGACCGCGCTGACAT GGCCTTCGCGCACTACGGGCCCTTCTGGCGCCAGATGCGTAAGCTCTGCGTCATGAA GCTCTTTAGTCGCAAACGCGCCGAGTCCTGGGAGTCTGTCAGGGATGAAGTGGACTC ATCGGTTAGGACCGTCACAGTTCATGTTGGTTCGGCTGTAAACATCGGAGAGTTGGT TTTTTCGCTCACGAAAAATATTATTTATCGGGCGGCGTTCGGGACGAGCTCTCAGGA AGGGCAGGATGAGTTTATTGGGATACTGCAGGAATTTTCCAAATTGTTTGGAGCTTT TAATATTGCTGATTTTATTCCTAGCCTGGGGTGGGTTGATCCTCAGGGGCTAAACAA TAGACTCGCTAAGGCTCGTGAGTCCTTGGATCGGTTCATTGACACCATCATAGATGA TCACATGGAGAAGAAAAGGAATGGTAAGGGAGTGAGTGACGGTGAAACGGACATG GTGGATGAGTTGTTGGCTTTTTACAGTGAAGAAGCTAAAGTATATGAATCTGAAGAT AATTTGCAAAACGCCATCAAACTTACTAGGGATAACATCAAGGCCATCATCATGGTA AATAACTATTACACAATTTCATATCACATATTTATATTATAACCCCACAGGTTGAAT GTCTATGTAACCTGTTTTCTTGGACTAAACTTTTGGCTAATTTTTTCTTTTTATCTGAT CAGATATATTAATTGCGTATTGAGACAATGAAGATAGAAAGTCTAACATATTATATT ATTTTGAAACTGATTGTTTAAATTGACGATCTGACTAGGTATATAACATGCTGTATAT GCAAATTAATAAGCTAATTATATATGCTACGTACTTTCAGGACGTAATGTTTGGCGG GACGGRGACTGTGGCGTCGGCAATAGAGTGGGCCATGTCGGAGCTGATGAAGAGCC CGGAGGACCTAAAGAGGGTCCAACAAGAACTTGCTGACGTGGTGGGTCTAGACCGT CGACCTGAAGAGACCGACTTCGAGAAGTTGACATACCTAAAATGTGCCCTAAAAGA GACACTACGACTCCACCCACCAATTCCACTACTCCTCCACGAGACCTCGGAGGACGC TGTAGTAGCCGGCTACCGCATTCCCAAAAGATCGCGTGTGATGATCAACGCGTGGGC CATTGGACGTGACAAGGACTCGTGGGAGGACGCCGAGTCCTTCAAGCCCTCGAGGT TTTTGAAAGAAGGTGTGCCTGACTTTAAGGGGAGTAACTTCGAGTTCATTCCGTTCG GGTCCGGTCGGAGGTCGTGCCCGGGCATGCAACTAGGGTTGTACGCGCTGGAGATG GCGGTGGCACACTTGCTTCATTGTTTTACGTGGGAGTTGCCTGATGGTATGAAACCT AGTGAGCTCGACATGAACGACGTGTTTGGACTCACCGCTCCGAGAGCGAGTCGACT CATCGCCGTACCGAGTAAAAGGGTGGTTTGTCCACTCTGATGGTGATGAAAAAACA GAGAGAGAAACAGTGGTGGAATTTGTTTGGAGTGTAATGATACTGTGAAAACTGCA CAGGTAAATTGCAAGCGTTTTCTTATTGTTCTTTTGAAAAACAAAATAATTACAAAG AGAACATGAACAGTTGTGAGGGAATTTTTWATTCACTCTCTTTGTGTATATAGACAC TCTCTTTTGTTTTGTTTAATATGTATGCAAATTTATCGTTAATTTCCTKKTTTTTTCCTT TTTGTTTTKTTATTATTGTATTGAAATAAAAATATAATGGCTGAGTTACAAAAATTAT TTGTCATGGTGGAAAAATTGATGGACTGCTTATGTTACGATTTCAATTTGTTTTCTGG GTCGGTGGCGCAATAGTAGAATTATTTTGTTTAAAAATGAATGAATAAAGATTAAAT AAAATTAGCTCTTGAACAACGGTAGAATAATGTTAAATCATGCTTACGATAGAAGTA GCTCACGCTGTCCTCAGCAGTTGTGAAAATTGACATTTAAGTTGACTGTTGCATGTC ACTTATATATTTATTTGTGGTTAAAATTGTTACATAAAAAATATGAAGAGTAATGCT GTGGAGGTTAAATTTATAGACTAAAATTGCAAACTAAATTATGTGTCACTAATAAGA AATTAGCACTTTTATCAACGTTTAAGTAATAATTCAATCATCAATATCCATATCATTT AATTTACAAAACTTAGTCTACAAATTTAATCTCCCTAGCATTACTCAAAAGTGAATG ATTGTGAAAATGAATTAAGGTTGGTAGGACTTTGACATATAAATCTAAATATAATTA AGAAGGCTCTAGGGTAGTGCTGTTCACACACCTTTTTTWACTTCTCTCACTCTTATTA ATTTTGTTTATTGATCTTCTTCAATTAATTCAATCCGGCGACCGAAAATTGAAAATAG TATGTGAGAAGTAAAAATTAGTGTGTAAGTAGCACTACCCGTGGCTCTATATATGGT GCCCAAGTCAGGTTGATGCATTTTGGTGGCTCCATATTTTTGCAAGACAAGTGCCCT AGCTAGTGACCCGAAGAGATCTTGTTTATGAACTAGTTGTATACAACTGTTTGTTAT CTCTCATCATGTTAAAAAGTTAATTAATATATAGACAAAATTATCTGTAACATACTA GTAATTAAGAAAGTTTGTAACCAATTGTGTATAATTATGTATCTACCTTAAATGTGG TATAAGACCAGAAGAAGTACCGTATATCATATAACATACTTGATGGTGCATTCCAAC CGATTTATGTGTGGAGGAAGTGTCGTAAATGCCTTGTTGAGCTGCATCAGCATCTGT TTGTGTGCGCGCGCGCGCGTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATGAATATATT GAGTTTAGGTGGGCAGTGAAAAGTGAAGTGAGGAGGACGTGAGGCCTTTTCCTTGT ACTATGAAGAGGTAAGTGGAGGAGCATGCCGGAGAAATCGAGAAGGGGAAGTTGA GCAGAGTTTGGTAGGAGAAGGATTGCAAGAAGAAATTAATTTTGATAGAAAAGAGA TTAATGTTAATAGAAAAGAAAATAATTTAATAAAAATTATAGTATTTTTTTATTTGTA ATCTAATACTACATCAAATGCTTCACTAAGTCAATCTAATTAAGTCTAGTCCTTGAA GCTAATTCAGTCCGAAACAGTCCGGTGCAACAAATGCCCTCTATGTGTATCAATGAT CATGAATCAAAATAATATGTATAAAAAAATATATAAATATGTTGTGATTTAGGGACA CGTTTGTGACACATTTTGACACACATTTTTATGGAACTCACTCTGTAATGTATTTTAG GGATCCAGCCGTCTATCTTTTATGTCTTAATTTTTTTTATGTCTTATCTTAAAGATAAT GTCTACCAAAAACCACCTAAATTTGAAACCATATGATTGTTGATTGAATTTAGTGTT TCATTGTAGAACAATATTCGTTTATTTTCTTCCCTACAAATAAATGTCTTAATAGTCT TGGATTTGCATAATTTTTTATAAGAATGATTTATAAATGATATAATAAAATATAGAC AATTCTGATCGTCGAAATACATATAAATTAGACTCTACGTACTATAAAAATAGATGT CAAAATATATGCCTTCGTGTATTGTAACTCTCTACATATGTGTGTGTGAAAGCAGAT TGTGTTTATGTAAGTAAGAGAGAGCTGGAAAGGGACGCCATCCGATATTTTCCATCC T SEQ ID No: 80 >App1e_XP_008337913.1 AACCTACAAAATAAATCAATCAAGATTTGTTTTCCAAATAAGCACTATCTT ATTTTGAGTCATAATTTTGGTAGCATAATAAACAATATATTGAAAGTATAATATAAT TTATATTTTAAGATATAATATAATTTTATTAATACGTACAGCTTAGAAATTAGTTTAT AAATATTCAATTGCTTTACTTTAGACAAAGTCAAATTGAAGCAATTTTCTGGGGTAA TGTTAGGATTCTTTATAAATTAAATTTTGTAAACTAAATGAGATGGTTGTTAATGATT AAATTATTATTTAAGTATTGATTACCATACTTATTTCTTATTGATGACACTTCATTTA ATTTAAAATTTTAGTCTCCCTATCATTATCTGAATGGTCGTTTTTGTTAGTAAATGCA ACCAACTCTCTTATTTCTTCGAGTTTAGAATATTTGTATTTTTTACGTATTAATCAATA GTACTATTCTCATTACATTTTTCATACCAGATTTTGTAAACCTCTCTAATAAAGTGAG ACTCACATGTGTTGATGGGTTAATACTTCTACTAAAAAAGTAATGTTAGGAGACCAA ATTTTTTAAACTGAATTGCAAATCAAATGACGTGTCACCAATAAAAAATAAACATGT TAATCGACACTTAATTAATAATCCAATCATTTACAACCACATCATTTAATTTGCAAAT TTGGTTTAAAAAAATTGGTTTCTCCAATGGTGGCTTATAACCTAAATTTCCCCTYCCC CCCCCCCACCCCAAAATCCACTCCAACCCAAAACATAAACCAGACCTAAAACCTAA AACTTAAAATGAAGGTAAATATAGGTCACAAATTTAGCCTACAAAAGCCGCTGAGA CCCACGGATGAGAGTGAAAAGTGAGCATTGTCCTGTAGCCAACTGCTACTTTTCTTC ATCGGGTGGTGGTGGTAATTGGACCGTTGGTTAATCCAACGGTCCACATTCAATTTT TTTTATATTTATATATTTATTGAATCCAACGGCTTAAATCGAATATAATCAAATCTAA CAGTAAAAGAAAAGATCTAACGGTCCAAATTTAAATCCAATGGCTAGAATAATCTT AAAATTTATCGGAATTTAAATATTTTTTTCCAACGGCTAGAATAATTTTTTTTTTTTTA AGTTTATGTGGTTTATCATGATTTTCATGTATTGATTTAGTGATTTTTCAAAATTTATC GGAATTTAAATATTTTTAGGTTAAAATGTTCATAAAATTAATTTAGGATAGTCTACA TAATTTTTAAAAAAAAAAATAGCCTTAATTCATTTTTTGATAATCTAGGGCTAAAAT TTTAGGCCAAAAGGGTTAGAGTAGAAAAGCTGTTTCTGGGCTAAAACCTAAATTTTC TGGGCTAAATATTTTTAGGTTTTAGGTCAGGATTGGAGATGATCTAACATTACTCCT ACTAAAAATATGGTACAAATATAGTATGAAAAATGCTATAAGTGTAGTATGACTTG GTATTTATACCAACAGGACCATCTCTGAATCCTTTGGTGAGGATCTTGAGGATCATT GAATCGTGTCTGTTTATCGTACATCGTGCAGTTAATTTTTGTCAAGTACTGTTTGTGT TTAATTTTAAATGAAAATATTTAAAATAATTTCTGACCGCATGATGTACGATAAACA GACAAGATCGACGGATCCTTGGGATCCTCACAAAAAGAATCTCGCGAGGATCCGGA TTCGTATTTATATGCCAAAGCGGACTCGGACCTTTGGATAATGATCAGGGAAAATGA CAATTCAAAAAATGGGTAAACTTCTTATCTCATCCATAGCACTATTACTTTTTCTTTA CAGACAAAATACTCTAACTTTCAAACCATACAATTTTAAAAACAAAAAAGAGAAAA CTCCTTGAATTAGTTCAATTCAAGATAGCATGACCCAATGAAACAGCAACACCAAA AAATTAAAAATATATAAATCAAACAGTAGCACAAATTTTGCATATAAAAGGCACCA CAATATCTCTTCCAACTTAGCAACATTTTGAGTTGCCCTTAAAATCCACACACTATGG ATTCTCTTCTGCAATCCTTGCAACCCTTAAAATCCATGACACCACTCGTGTTCATAAT CCCACTCCTATTCCTCCTCCCTCTAATTTTCTGTTTCCGGCGACGACCACCGTACCCG CCGGGCCCCAAAGGCCTACCCCTCTTTGGCAACATGTTAATGATGGACCAACTAACC CACCGGGGCCTCGCCAAGCTGGCCAAGCAATACGGCGGCATATTCCACCTCCGCAT GGGGTTTTTACACATGGTTGCCATTTCCAACCCTGACGTGGCACGACAAGTCCTCCA AGTCCAAGACAACATCTTCTCCAACCGCCCGGCCACCATCGCCATCAGCTACCTCAC CTACGACCGCGCAGACATGGCCTTCGCGCACTACGGGCCCTTCTGGCGCCAGATGCG TAAGCTCTGCGTCATGAAGATTTTTAGTCGCAAACGCGCCGAGTCGTGGGARTCTGT TAGGGACGAAGTGGACACGGCGGTTAGGACCGTCACAGTTCATGTTGGTTCGGCTGT AAACATCGGAGAGTTGGTTTTTTCGCTCACGAAAAATATTATTTATCGGGCGGCGTT CGGTACGAGCTCGCAGGAGGGGCAGGATGAGTTTATTGGGATACTGCAGGAATTCT CCAAGTTGTTTGGAGCTTTTAATATTGCTGATTTTATTCCCAGCCTAGGGTGGGTTGA TCCTCAGGGGCTAAACAATAGACTCGCTAAGGCTCGTGAGTCGTTGGATCGGTTTAT TGACACCATCATAGACGATCACATGGAGAAGAAGAAGAAGAACAATAAGGGATTG AATGATGGTGAGACGGACATGGTGGATGATTTGTTGGCTTTTTATAGTGAAGAAGCT AAAGTAAATGAATCTGAAGATAATTTGCAAAACGCCATCAAACTTACTAGGGATAA CATCAAGGCCATCATCATGGTATATAACTATTACACATTTTTATATCAGATATTATAA CCCCGCATTCAGGTTGCATGTCTCTGTAACCTGTATTCTTGAACTAAACTTTTGGTTA ATTTATTCTTTTTATCTGATCAGATATAATAAATTGTGTTGATTGAGATTATGAAGAT AGAAAGTCTAACATATTTAACTTTAAAAATTAATAATAGTTGAGGTTGACGATCTGA CTACATAACATGTTGTATATGCAAATTAGTAAGCTAATTGTATATGTTATGTACATG CAGGACGTAATGTTTGGCGGGACGGAGACTGTGGCGTCGGCAATAGAGTGGGCCAT GTCGGAGCTGATGAAGAACCCGGAGGATCTAAAGAGGGTCCAACAAGAACTTTTAA ATGTGGTGGGTCTAGACCGTCGACCTGAAGAGGCCGACTTCGAGAAGTTGACTTACC TAAAATGTGCCCTGAAAGAGACACTGCGACTCCACCCGCCAATTCCTCTACTCCTCC ACGAGACCTCGGAGGACGCTGTAGTAGCTGGCTACCACATTCCCAAAAAATCGCGC GTGATGATTAACGCGTGGGCCATTGGGCGTGACAAGGACTCGTGGGAAGACCCTGA ATCCTTCAAGCCCTCTAGGTTTCTGAAAGAAGGTGTGCCTGACTTTAAGGGGAGTAA TTTCGAGTTCATTCCGTTCGGGTCCGGTCGGAGGTCGTGCCCGGGAATGCAGCTAGG GTTGTACGCTCTGGAGATGGCGGTGGCACACATGCTTCATTGTTTTACATGGGAGTT GCCTGATGGGATGAAACCTAGTGAGCTTGACATGAACGACGTGTTTGGACTCACCGC TCCGAGAGCGAGTCGACTCGTCGCCGTACCGAGTAAAAGGGTGGTTTGTCCACTCTG ATGGCGATGAAAAAACAGAGTTGGATTGAGGAGAAAGAAACAGTGTGCAACATGTT TGGAGTGCAATGTCAAAGTATACATACAGTAAAAACGGCAGGTAAATTGCACTTGT TTTTAATTGTTCTTTTGAAAAACAAAATAATTACAAAGAGACTTTAAAAAGTTTGTG GGACTTTTTATTTCTCTCTCTTTGTGTATATAGACAGTCTCTTGTTTTGTTTAATATGT AAGCAAATTTATCTTTAATTTCCTTTTTTTTTTGTTTTGTTATTATTGTATTGAAATAA AATTAGTGGATGAGTTGCAAAATTATTTGTCATGGTGTAAGACCATCTCCAACCTTT GGATTAAAACCTAAAATTTTTAGTCCAGAAAATTTAGAGTTTAACTGAGAAACAACT TTTTTGCTCAAACCCTTGTAGATTAAAGTTTTAGTCCCAGATTATTAAATAATGAATA TAGGCTCTTTTTTTTAAAGTTACTTTAAAAAAAAAATTATGTAGACTATCCTAATCTA ATTTTATGAACATTTTAACCTAAAAATATTTKGATTCCGACAAATATTAAAAAATCA CTAACCGACACCATGAAACTTGTGAAAGAATTTTTTTTAATTACTTTAGCCGTTAGCT TTATATTTGGACCATTCGAATTTTTTTATTCTTTTACCATTGGATTTCATTAAATTAGA TCTTAACCGTTTAATTCAATAAATTTATAAATATAAAACTAAAAAAAWWATACATA TATAGTGAGCCAGTCTTTCTAACTCATGGGGAATCTTGAGCTAAATTTAGCCCATAA ATGAGTTTTGAGTTTTAACTCATATTTGCCCTAAGACCATCTCCAATGGTGGCTTATA ACCTAAATTTTCCCCTTCCCCCCCCCCAAATCCACTCCAACCCAAAACCTAAACCAA ACCTAAAACCTAAAACTTAAAATGAAGGTAAATATAGGTCACAAATTTAGCCCACA AAAGCTGCTGGGACCCACGGATGAGAGTGAAAAGTGGGCCTTGTCCTGTAGCCAAC GGCTACTTTTCTTCATCGGGTGGTGGTGGTAATTGGACCGTTGGTTAATCCAACAAT CCACATTCAATTATTTTTTTGTTTTATATTTATATATTTATTGAATCCAACGGCTTAAA TAGAATATAATCAAATCCGGTAAAAAAAAAAGATCTAACGGTCCAAATTTAAATCC AATGGCCAGAATAATCTTAAAATTTATCGGAATTTAAATATTTTTTTCCAACGGCTA GAATAATTTTTTTTTTTTAAGTTTATGTGGTTTATCATGATTTTCATGTATTGATTTAG TAATTTTTCAAAATTTATCGGAATTTAAATATTTTTAAGATAGTCTACATAATTTTTT TTTTAAAGTTAATTTAAAAAAATTAGCCTTAATTCATTTTTTGATAATCTGGGGCTAA AATTTTAGGCCAAAAGGGTTGGAGTAGAAAAGCTGTTTCTGGGCTAAAACTTAAATT TTATGGGCTAAATATTTTTAGGTTTTAGGTCAGGATTGGAGATGGTCTAAGAGTTGG AGCAAGTTGGGGTAAATTTGTAACTTAAAATTTGAGCTTTACTCCAAGGGAGTAGGT CTAATAATTGATGGACTGCTTATGTTACGATTTCAATTTGTTTTTTTTTTTTTTTTTTTT GTGGTCGGTAGGAATGGTAGATTTATGTACAGCTGTGCTTACGATATAAGTAGCTCA TACTGTCCTCAGCAGCTCTGAAAACAGACACTAATTGACTCATTTCGATTATACTTAT ATAGTGGTTGAATTTCTTATATTAAAGATGTGATATTGTGAGGATGGTGAGAATGAA TGAATGTTGGTGAGGACGTTGACATATAAAGCTAAATATAATTTAGAAGGCTGTATA TATGGTGCCCAAGTCAGATCAATGTCTTTTGGTGGCTCCATATTTGCAAGAAAAGTG CGCCTTTTGTAAATACTATTTATTTGTTATATAAGCGTGTCCTTGCTAGCGACCCGAA GAGATCTTGTTTACGACTAGCTGTGTACAACTATGCGTTATCTTATACATTTATACAA CTGTGCACACGTATAGAATTGTCCATATATAATTAGTAAAAGAATTTCTTGTTTGTA AAATTAGTTTTGTACAACTATATGTGATCTGTGTAKATGATCAGAAGAAGTACTGCA AAGCATATATATAGGACAGTGCACTAGTTAACCTACGCGTGCAGGAAATGTTGCAG TGACTGCCCTTGTTGAGTTGCATCAGCATGTGTGTACTTTGTACAACCGAGAGAGAG AGAGAGAGAGAGAGAGA SEQ ID No: 81 >App1e_XP_008391587.1 ACATCTCAAAGCCCAACCCCAAGGGTGAGCCCAAATTTAGTCTCCAGGCC TATTACTCTAATCAATTTCTATAAARAACAAAGCCTTGTAAAGTAATAAAATCTTTT GGGAATGACCAATGTGGGACAAAGAAATTTCTACTCAAACTACTCAAATTTCCAAC AATACCCCACATTTGAGTTGAAATTTCATTCAAACTYCAWCAATTACCCCACATTTG AATGCAAATGGATGACTAGGCTGCYTAWAMCTGAGAGWGAATAGACATRATATGC ATCGAGTGAAGTGTCTTTTGGACTTGAACTTACACAGATCATGTCTGYCAYACGTAA ATTCATACGMTTGTGTTCATTTTGGCCCTGAACAGATCCCGGATTTCGTAGGAGCTT TAGAGAATTTAGCCATGTCATTTCTCATAAATGTGGGCCCTAAACCCCAAGGCCCAT CTTTTGACAATAAATATATATTAATTACCAATTAATTAGTATACCCCAAAGTCCAAC CCCAAGGGTGAGCCTAATTTTAATCTCCAGGCCTATTACTCAAATCACTTTTTATAAA AGACAAAGCCTTATAAAGTRATAAAATCTTTTGGGAATGGCCAATGTGGGACAAAG AAATTTCTACTCAAACTACTCAAATTTCCAATAGACAGAGAATCAGTTTGTTGAGGT TGTTTAGCCCCCTTTTCTTCACTTAACGACACACTAGACAATCCACCACTTGCCTGTT TATCCCCATTGAATTACCGAAAATAAAAATAAAAGGTCAGAGTTTCACTTACATAGC AAATTAATACATATATTCAAGTGGCCTGGGGACAATGTGGACAAGGGATATATTCA AGTCGTCATCTTCTATGCCCAACCATTGCGCCTTCGTAAGTTGGTGCATAAAGGATA CACTTGTTCAGCATAGCTTTCATTGACTGATCTGAGAACTCGTGTCGGAAAATTTTG ACATTTAGGGGTACAAGGTATGATCACAGAAAACTAGAGTTCTCCCAGTGGCGAGA GAAACTCTGCAATCCATCATAAGTGAAGTAGTCTATCTCTCTCATCATGTGTCACCA GGGGCTCAAAGTAAGGGCGACTGGGATTTATCAGTAACCATGCATTGATACAATAT CATTATTCCTCTTTTGCCTCTCAAATATAGCAAAAGGGAAGCAAAACAAGGTCAACT GTGAATCAACATTTTCTTGCTCCATTCAGTTTACTAATCGTTCGTTCTAACATCAAAT TGCCATGACCATAGCAGCTAAAACCCTGTAACAGATCTAGCATCACACTGCCGTAA AAAGAATAGTGATCTCTGAGTTTCTGTATCTCATCGATAACAAAATACCTACAATCG TATGTGTCAAATATTTATTTTATTAATATATTCGGTCCCATAGTTCTTGGGAGCAGCC TCTCCATAAATGGGGGTAAGGCTATCCGACATTCACCTCTCCCAGACCCTGCGTAAA GCGGGAGCCTTGTGCACTGGATACGACCTATTCGGTCCCATAGTTACATTAATTATT AAAAAATAATTAAAAATCAATTTTAATCCTATTGGTTGTCAATGAGACTCATGAATT AAACAATTAAATTAAAGGCATTTGACTCCATCTTTATTTGCGGTAAAAAATGTCATA TATGACATCTCCTTTAGAGAATACCGTGATGTCTTTTAATCTTAGTTGACGTATTTGA CATCTCTTTTACATGGTAAGAATTCAAATTATTCTTCCCTTCTTTTGTCGAAATTCAA TTAATTCCTTAATTAACTGGGGTATAATCTGTTTCCAGACAAGTGGATCCAAAATTC CCACTGGCAGTATACACAAAACAACTCGTGACGTTTGCAAGATAAAATACATAGCA GATATCACCACCAAGTCACCAGTTATTACTTGCCACTTTAGGGCTGCAGATCCCTTA TTAATTATATAAAGAACTCTCATAGTTTTATATGAACCTCACCAACCCCATTTTCCCA ACACAACCAAAGCCATGGAACTCCTTCACCAAGCTCTTCAATCCTTGCAATCTTCAC CCATGTTGCTTATTCTTCTTCTTCTTCTCCTCATCATTTCCTTTATTTTTCTGTTTAATT CGCGCCGGAAACCCCCATATCCGCCAGGTCCAAAAGGGTGGCCCATCATCGGTAAC ATGCTCATGACGGACCAACTTACCCACCGTGGCCTGGCCCATTTGGCCAAGCAATAT GGCGGTCTCCTCCATCTCCAGATGGGGGTCATACATGTTATGGCCGTATCAACTCCT GATATGGCACGCGAAATCCTCCAATCCCAAGACAGCTTATTTGCCAACCGGCCAGCC AATGTTGCCATATCTTACTTGACCTATGATCGGGCAGACATGGCCTTTGCCAACTAC GGCCCGTTCTGGCGTCGCATGCGCAAAATTTGCGTCATAAATCTATTTAGCCGAAAA CGGGCTGAGTCATGGGCTTCGGTGCGCGAGGAAGTCGATGAGATGGTCCAAACCGT GGCGGGGAAAACCGGCTCGCCGGTGAATATCGGGCAGTTGGTTTTCGCTCTAACTAG GAACATAACATATCGGGCGGCTTTTGGGTCAAGCTCACATGAAGGGCAAGGCGAAT TTGTGCAGATTTTGCAAGAATTTTCAAAGCTTTTTGGAGCTTTTAACATGCAGGATTT TCTACCTTGGTTGGGTTGGGTTCATGCACAGGGTTTTCAGGACAGAATGGCTAGGGC ACGTAAATCACTAGACGTTTTCATCGACAAGATCATCGACGACCACATGGCTAAGA GGAAAGCAAACATGGAGAAGGATGACAGTGAGGCTGCTGATACAGATATGGTGGA CGAATTGATAGCTTACTTTAGTGATGATGCTGGAAAGGAAGGTGACGACCCCAATTC TGGCTTCAAGCTCACCAGAGACAATATCAAAGCACTTATTATGGTATGTAAATTTGA CAATTAATATTTTCTTAATACGTTATATTTGTTGGTGAATAGTCACACATCAGAGAA AAACAAAAATAATATATAATTTTTATATTTGGGACATAAACTTCTAATATCATCGAG ATTTTCCAATGATAAAATTCAACACATAGCAATAAGTGGTATGCACTTTATTAATTTT TAAGAAACAAATCTGATTTTAAGTATTTGTTGTTAACTATTTTGGTAAGGAATTAGG AGAGAAAACTATTCTGATAAGGAATTCATGTACGTAACTATTACTATATTTATCATT TCCGATTGATATCGATTGATTTAGTACTAAATAATACGATTATCCCATATATACGTA GGATGTGATGTTTGGTGGAACAGAAACGGTTGCATCAGTGATCGAATGGACAATGG CAGAGCTGATGAAGAGCCCAGAAGATCTCAAAAGAGTACAACAAGAGCTCACCGAT GTGGTTGGATTGAACCGTAGGCTCCAGGAAACCGACCTCGAAAACCTAACCTACCT CAAATGCGCAGTCAAAGAATCCCTCCGTCTCCACCCGCCAATCCCTCTCCTCCTACA CGAGACCGTGGAAGACACCTCTGTGGCTGGCTACTCGTTCCCAGCTGGGTCACGGGT TTGGATCAATGCGTGGGCTATTGCTCGTGACCCGACTGCATGGGACGAGCCAGAAA CATTCAAACCCTCGAGGTTTCTGGAAGATAGCTCGCCTGATTTCAAAGGGAGCAACT TCGAGTTTATTCCTTTTGGGTCTGGTCGGAGGTCGTGCCCGGGAATGGCGTTGGGGC TGTATGGGTTGGAGATGGCTGTGGCTCATCTGCTTCATTGTTTTGCATGGGAGTTGCC GGGTGGGATGAAGCCTAGTGAGCTTGACATGAATGATGTGTTTGGACTGACTGCACC AAAAGCGGTTCAGCTTGTTGCTGTGCCAACTTACAGGTTGAATTGCCCCCTTTGAAT TAATAGTTTCAAGTAGACGAGGAGACGATGATGATGAAATATTACTTGGTTTTAAAT CAGTGATCGATGAGTCAATTTCTCTACGTAAAGGTACCTTAACTAATAAGGGTTTGT TATGTTCTTGGTCTCTCTTTACTAATTGGATAATACTATTGCTTTCCCCCATGGGGGA TGAGCTTATTATTCCTCTATTGCAAATAACAATATCTTCAACATAGAAATTTCATAAT CGGAACAGTCCAATATCTTAATCTTCATTTGAAGATCATCCTTACAAAAAATAATTT GATTTTGTGATCGGTTCGTCATCCAAATGTATCAGTAAATCAACGGTTCATCATGAA TATGCTACTTGATACCTACACTTATGATTTATTTGATACATTTGAATGGCTAAACAAT CACGTCAAATTATTTTTTTGGAGGGATGATCTTAAAATGAAGATTAAGATATTGAAT GGTTCTAATTATAAAAAAATCTACGTTAAAGATATGTTATTTGCAACTGGAGAAATG ACCTCATCTCCCATGGAGAGTATGTAAGCAGTATCCATTATTGTAATAATCATTTTTA ATTTTGTGATCGATATAATATCACTATGTTGTTAATAGTTAACATAAATATATGCGTA GTTGTTTGTTAACCTTTGTTGGCTTTCTGTCCTTTGTGGCTCGGCCGTGTATCTTTTAG TCAGTTTTCCGAAAGACAAAAAGGGAAGAGATCCTATCCGGATCTCTCCCACCAAAT TCTAGGGATTCGAAGATCCGGACTCTTAAAATTGAATTCAATGGCCACAAACAGAG GATCTCTCTAAAAGTTATAATAATTACAATAGTTGGATCAAATTTCAAAGGTTTGGA TCTTCGGATCCCTAGGACTTGGTAGGAGAGATCCGGAAGGGATCTCTTCCCTACAAA ACAAGTGGGGATGTACTTTTAATGTTGGACTGTTAAAGTCCTGGAAAAACATCTTTT GTCAAACTATATAGCAAAAATAGTAGTAAGCTAAGATGCTTATGGTGTTAGATTATG GATCGAGGTTATTGATCAAGATGAATCTTTCCTAAATTTATACCAAATTTATAATCTC ACAACATAATTTGATGAACTCGATATGCAATATTGATCACACAAAGAGTTCATATAG AATATTGGTTTATATCATAAAAAATTAAATTTGTAGGGTTCGTAAACTGTTCTATTAG GTAGTAGTAACATATTAACTTGATATTGTGATGATACAAGGCTAAAATTAATAGTAT TGTTATCAACTAACTATTGATCTAGTAATTTTTTTTCTTCCCTAATGTTGAAATAAAC GTCTTGAGCTCGATTCCTCTCTTTTATACAAAAGATAATATAAACAGTAGCATAGAT TTCAACAAATGGCCGTTGAAATAAACATTTTGAGTTCGGTTCCTCCCTTCTACACGA AAGCTAATATAAATCAATAGCATAGCTTTCAACAAATGACCGTTGCATTTAGATGAA AGCCCTTAAAGTTTGCCGACCCTTTGACATGTGGATAAGTAAATAATAGAACTAGGT AATTGAAGTGGTTGAGAAATGGACATTGTGAGATTGGAATGCGTTAGCAATTGCGC AATGCAAACTATGCTGTCGGTAGAAGGTGAAAGGATAAACCTCAGCCAATGACATT CTATGCAGCTGTTTAGCTATAGCTTTTTGAACCTGTACAAACGATTTTTATTTTCTTTT TAATATTTAAACCAAGAAATATAAATTTTGAGTCCAACTTCAAGGTAGATGATCGAT TACTCATCAAATAAACTTATTTATTCCAATCATCTTTAAAATAAGAGGAAAAAGAAA TAAGCAAAGTTCCGTTGTTGAGCAAGAAATGAAAAATTCATAGAAAGGTATAATCT CCACCACGTAATGTGCACCTACACGCCTTCATTGACGTCGTTTCTCAATTGGATAGA TAAAAGTTTTCTTCAAGTCTAAACCCCCTTTCATCAAGTGGTGAATTGACAC SEQ ID No: 82 >Pear_XP_009378215.1 GCTCTTCTTGTTGCCTTCCAGCCATGGTTGAACTTTAGAACCATTAATTTA TTTTTCTCAGGAAAACATTAATAAAAAATGTCAACAAATATTATCCAAGATTCGTCT GTAAGTTATTTTGTCTAAATTGCAAGAGCTGAACTCATTTCTTGTAAGTTTAGTTTTG TTCATTAGTCCTTTTATTGAAGGAGTTTCAGATAATCAATTCCATTTGCTGTACGAAA ACTCTGTTAATTAACTTAATTACATGTATCTCTCTTTCGTGTTAATCTGTTTGAGATGT ACTTAGGTTTCCAAGACATATAAATTATTTCAAGGCCCCACATAAGATATATCTTTT AACCAAACCATGTTTTCTTGTAATCATGTATATGCATAATAATATTTTATCTTGACAA CATGATATGACGTCTATAACGTAAAAATTAATATTGTTATAACAATAATAATGTCAT TATGTGTTATTTAACTAAAATCTTACCGTTATTATGTAATCTTAGACTATAAATCTTG ACGATTACGCTGTAATTAATCTTACATTTCTTGTAGTTCAGACGTTGAATGTTAACAT TATTTTATAGGGGCTTTTAGATCCAGGTCCAAAAATGTAGAGTGTTTTTAGGAGTGA GTCCAATTATCTAATTATATGTTTTTATTTCTTTTATACTCATTTTATATTTTCTAAAA ATATTAAAAATCAATTAAAATCTTCTAATATTATGCATTTTCCAACTCCAAAAGAAT ATATTTAATATCTTATAACAAAAAAAACTAATATACTAAAATAAATTTATCTGCAAA ACATTCTACCCTAACTCAAGTAACAAATATATGAATGTATATAATATACCTATACGT GAGATATGAAACCTAATTAGAGGGTAAAAAAAAAATAACATACCTACAAGTAAGAC ACATTAATCTGTGACAGGTTGATTATAAAAAAAGAATCTGTCATATAGGTAGATAAA CATAATTAACCTGTGATATAGGTCGATTATAAAAATTAAAAATAAAATCTATAAATG GGGTTTAAAGTAGGAGGAAGAACGAGAAATAACAAAAAGATAAATAAAAAGAAAT AAGCAAAGAGATAATTGGGAAGAAATTTGATTTTTATAATAAATTTTATCATTGAAC AAATAACTATTGATAATTAAATAATTAAATATAACAAATTGGACTTATTTTAATAAA CTGGACTATTCCTACTATTGGCTCAAAAAATTGGACTTATATCAAGTTTCCCCTATTT TTTTTTATAACACCAAATGTGAAGGTAAAGACCCAAAAGTGAATACTGATGAATGTG AAATTTCATAACGTCTATTTTTAATAAATTGCGTCTATAGACGCTATACTATAACAA GACATTCATAACCATCAAACATTAGTGTAACAATATCATTCCATAACCTCGATCACT ATTTATGTAACGTTTAATAGTAAATGACAATTACAATATAATTGTTGTTATACGAAT GATAGCGTAGAAATTTGCTTTATTAATTTGGGACTTAGTTGTAAAAATATCAGTTGTT TTATTTCAGACAAAGTCAAATTGAAGCAATTTTGTAACGTGGTTCCTATGAGTAGAC TCAACCAACTCTCTCATTTTTGTTTGTTTTAGGTGGCTTCTTAAAACTAACTAATTAA TACTCCCATGTCCACACTTCATATATTTATAATCAAATTCCTACGTCTCTAAACGTCA AAACGGCTCGAATTTGGATAATGAGAAAAAAAAGGATTCAATCCAAAAATCCGCAA AACTTGGTTTCTTGTCCCATACTATTTCTTTTCTTTTCCAACTTTCATTACCATAAAAA TACTATAAACAAAACTAAACAATCTCAATTGTTTTTAAATAGTTTATTACTGGATAG CCGACCAAATTCCACTGTAGCACTAAATAAATAAATAAATAATCCAACAGTTGCAC AAACTTCGTATATAAAAGGCCCTACTACTTCTGCTAATCATACCCACGAAAAAAGAA AACAAAAAAAAACAAAAAAACAAAAAAACAAAAAAAACAAAAGAAACACACACA ATATGGATTCTCTTCTGCAATCCTTGCAAGCCTTACAATCCATGACACCACTCTTGCT CATAATCCCACTCCTATTTCTCCTCCCTCTAATTTTCCGTTTCCGGCGACCACCACCA TACCCACCCGGCCCCAAAGGCCTACCCCTTATTGGAAACATGTTATTGATGGACCAA CTAACTCACCGGGGCCTCGCCAAGCTGGCCAAGAAATACGGCGGCATATTCCACCT CCGCATGGGGTTTTTACACATGGTTGCGATTTCCAACCCTGACGTGGCACGACAAGT CCTTCAAGTCCAAGACAACATCTTCTCCAACCGCCCGGCCACCATCGCCATCAGCTA CCTCACCTACGACCGCGCTGACATGGCCTTCGCGCACTACGGGCCCTTCTGGCGCCA GATGCGTAAGCTCTGCGTCATGAAGCTCTTTAGTCGCAAACGCGCCGAGTCCTGGGA GTCTGTCAGGGACGAAGTGGACTCGGCGGTTAGGACCGTCACAGTTCATGTTGGTTC GGCTGTAAACATAGGAGAGTTGGTTTTTTCGCTCACGAAAAATATTATTTATCGGGC GGCGTTCGGGACGAGCTCTCAGGAAGGACAGGATGAGTTTATTGGGATACTGCAGG AATTTTCCAAATTGTTTGGAGCTTTTAATATTGCTGATTTTATTCCTAGCCTGGGGTG GGTTGATCCTCAGGGGCTAAACAATAGACTCGCTAAGGCTCGTGAGTCCTTGGATCG GTTCATTGACACCATCATAGATGATCACATGGAGAAGAAGAGGAATGGTAAGGGAG TGAGTGACAGTGAAACGGACATGGTGGATGAGTTGTTGGCTTTTTACAGTGAAGAA GCTAAAGTAAATGAATCTGAAGATAATTTGCAAAGCGCCATAAAACTTACTAGGGA TAACATCAAGGCCATCATCATGGTAAATAACTATTACACAATTTCATATCACATATT TATATTATAACCCCACAGGTTGCATGTTTATGTAACCTGTTTTCTTGGACTAAACTTT TGGCTAATTTTTTCTTTTTATCTGATCAGATATATTAATTGCGTATCGAGACTATGAA GATAGAAAGTATATATTATATTATTTTGAAAACTGATTGTTTAAATTGACGATCTGA CTAGGTATACAACATGCTGTATATGCAAATTAATAAGCTAATTATATATGCTACGTA CTTTCAGGACGTAATGTTTGGCGGGACGGAGACTGTGGCGTCGGCAATAGAGTGGG CCATGTCGGAGCTGATGAAGAGCCCGGAGGACCTAAAGAGGGTCCAACAAGAACTT GCTGACGTGGTGGGTCTAGACCGTCGACCTGAAGAGACCGACTTCGAGAAGTTGAC ATACCTAAAATGTGCCCTAAAAGAGACACTACGACTCCACCCACCAATTCCACTACT CCTCCACGAGACCTCGGAGGACGCTGTAGTAGCCGGCTACCGCATTCCCAAAAGAT CGCGTGTGATGATCAACGCGTGGGCCATTGGACGTGACAAGGACTCGTGGGAGGAC GCCGAGTCCTTCAAGCCCTCGAGGTTTTTGAAAGAAGGTGTGCCTGACTTTAAGGGG AGTAACTTCGAGTTCATTCCGTTCGGGTCCGGTCGGAGGTCGTGCCCGGGCATGCAA CTAGGGTTGTACGCGCTGGAGATGGCGGTGGCACACTTGCTTCATTGTTTTACGTGG GAGTTGCCTGATGGTATGAAACCTAGTGAGCTGGACATGAACGACGTGTTTGGACTC ACCGCTCCGAGAGCGAGTCGACTCATCGCCGTACCGAGTAAAAGGGTGGTTTGTCC ACTCTGATGGTGATGAAAAAACAGCGTTCGACGAGGAGAGATAAACAGTGGTGCAA TTTGTTTGGAGTGTAATGATACTGTGAAAACTGCACAGGTAAATTGCAAGCGTTTTT TTATTGTTCTTTTGCAAAACAAAATAATTACAAAGAGATCATGAACAGTTGTGGGGG AATTTTGAATTCTCTCTCTTTGTGTATATACACTCTCTTTTGTTTTGTTTAACATGTAT GCAAATTTATCTTTAATTTCCTCTCTTTTTTCCTTTTTGTTTTGTTTTGTTATTATTGTA TTGAAATAAAAATAGAATGGCTGAGTTACAAAAATTATTTGTCATGGTGGAATAATT GATGGACTGCTTATGTTACGATTTCAATTTGTTTTCTGGGTCGGTGGCAATAGTAGA ATTATTTTGTTTAAAAATGATTGAAGAAAGATTAAGTAAAATTAGCTCTTGAACAAC GGTAGAATAATGTTAAATCATGCTTACGACAGAAGTAGCTCACACTGTCCTCAGCAG TTGTGACAATTGACACTTAATTTGACTGATGCATGTCAATTATATATTTATTTTGTGG TTAAAATTGTTACATAAAAAATAAGAAGGATAAGGTTAAGGAGATTAAATTTATAG ACTAAAATTGTAAACTAAATAATATGTTATCAATAAAAAATGAACACGTTTATCAAC GTTTAAGTAATAATACAATCATCAACTTTCATGTCATTTAATTTACAAAATTTAGTCT TCCTAGCATTACTCAAATTTGAATGATTGTGAAAATAAATTAAGGTTGGTGAGGACT TTGACATAAATCTAAATATAATTAAGAAGGCTCTAAGGTAGTTCTATTCACACACTC GTTTTTAGTTGTTTGAGAGTCTTATTAATTTTTGTGTATTGATCTTCTTCAATTAATTTA ATCTGACGATCAGAAATCGAAAATAGTATGTGAGAAGTAAAAATTAATGTGTAAGT AGCACTACCCGTGGCTTTATATATGGTGCCCATGTCAAATCGACGCATTTTGGTGGC TCCATATATTTGCACGACAAGTGCCCTGGCTAGTGACCATGAACTAGTTGTGTACAG TTGTGTGTTATCTCTCATCATGTGGAAAAGTTAATTAATTAAAAAAAGTTTATAACG ACATGTGTACAACTATGTATCGACCGTGGTATAAGACCAGAAGAAGTACTGTATATC ATATAACATAGGATAGTTGGCTTGATGGTGCATTCCAACCGATACATGTGTGGAGGA AGTGTTGTAAATGCCTTGTTGAGCTGCATCAGCATCTGTGTGCGAGAGAGAGAGTGA ATGAATATATTGAGTTTTGGTGGGCAGTGAAAAGTGAAGTGAGAAGGACGTGAGGC CTTTTCCTTGTACCATGAGGATGCGTTTGTTACACCTTCTTAAGAGATTGGCTTAAAC TGACTTAACTAGAACTATAATTCTACGTTTGGTATGTTTCTGGACTAGATTAAATGG AACTCGCTCCAACTAACAATCCCTCCACGTTTCGTTAAAGCTCGTTATTTAGTTCGGA GCTTTCGCTTGGTATTAAGCATGACTAAAATGGAAAACGAGGCCGACGCTTGGTCGT TTGCTACACCCGACATCCACTCTGCCTTCTTTCTGCTTGCACCGTTACTATGGCCAGG TCGTCGGCGGTGCCTTCTCTTATGTGGCCCAACCTTAGGTGATAGCTGCAGCTCACA GCTGAAGAGGCGCTGCTTTAGGCCAAAATCGCGAGTCGGTGGAGGACCTGGCAATG CTACCGTCGGTGGGCGTTGCTGACGAGAAGCAGATCAAGAGCTTGACGATGAAGGT TGGGAAGATCTGTACAATATTATGCGATTTGATTATTTGGTTGCAGGATTGGGAGAT CTGTACATTTTTTATGCGATTTGGTTGCTGACATGATTGAATGAGAAAATTAATTAGC TTTTAAAAGTTAAGATAACTATAAAATAAGTGAGAGAGTGGTGAAATTGTGGAGAT AAAAAGGTAAGTGGAGGAGCATGCCGGAGAAATCGAGAAGGGGAAGTTGAGCAGA GTTTGATGGGAGAAGGATTGCAGTAAGAAATTAATTTTGATAGAAAAGAAATTAAT TTTAATAGAAAATAAAATAATTAAATAAAAATTATTGTACTTTTTTATTTGTAATCCA ACACTACATTAAACGTTTCACTAAATCAATCTAATTAAATTTAGTCCTTGAAGCTAG TCCAGTCCGAAATAGT SEQ ID No: 83 >Pear_XP_009338655.1 AAACTAATGAATGATATTGTGGTGATGCTACAACACGCAATCTAATCTAA TCTTGTAATCTTATCTTAGGTTTGAAGTACAAATTAACCCCATTTATCATATATTGCA GTGAGGTGAAAAAGGTTTGAAATGGTGAAATGAAACCGTCAATGGCTGGAAAGTCT AAACCCTGACAGCTACTTGGTATGTCTAATAAGGTTGAGCATCAAATCTATCACATT TCAGATACAATACTTACTAATAAATTCATCATGCATGATTCACATTGAAGAGATCGG GGGTTAGGTGTAGCCAAATAGGGTTTTACCCAAAAATTAAAAAGAAACCCACAAAA TAAATCAAGATTGATTTTCCAAAGAAGCACCATCTTAATTTGACTTGTAATTTAAGG AACCAATATGTAACTCACACACACACATATATACATATATATATATNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTAAGGAAACAAATCAACAATCG TATGAGATTGGATCAGTTTGGTGAATATATTTATATTTGGGTGGAGAGGACCAATAT GCCTCACATGTATGTGACTAGTTCGACGAAAGTCCACAATGGCAGCAGCTCTTCTTG TTGCCTTCCAGCCATGGTTGAACTTTAGAACCATTAATTTATTTTTCTCAGGAAAACA TTAATAAAAAATGTCAACAAATATTATCCAAGATTCGTCTGTAAGTTAGTTTGTCTA AATTGCAAGAGCTGAACTCATTTCTTGTAAGTTTAGTTTTGTTCATTAGTCCTTTTAT TGAAGGAGTTTCAGATAATCAATTCCATTTGCTGTACGAAAACTCTGTTAATTAACT TAATTACACGTATCTCTCTTTCGTGTTAATCTGTTTGAGAAGTACTTAGGTTTCCAAG ACATATAAATTATTTCAAGGCCCCACATAAGATATATCTTTTAACCAAACCATGTTTT CTTGTAATCATGTATATGCATAATAATATTTTATTTTGACAACATGATATGACGTCTA TAACGTAAAAATTAATATTGTTATAACAATAATAATGTCATTATGTGTTATTTAACTA AAATCTTACCATTATTATGTAACCTTAGACTATAAATCTTGACGATTACGGTATAATT AACCTTACATTTCTTGTAGTTCAGACGTTGAATGTTAACATTATTTTATAACATCAAA TGTGAAGGTAAAGACCCAAAAGTGAATACTGATGAATGTGAGATTTCTTGACGTCTA TTTTTATTAACTTGCATCTATAGACACTATAATATAACAAGACATCCATAACCATCA AACATTAGTGTAACAATATCATTCCATAACCTCGATCACTATTTCTGTAACGTTTAAT AGTAAATGACAATTATAATATAATTGTTGTTAGACGAATGGTAGCGTAGAAATTTGC TTTATTAATTTGGGACTTAGTTGTAAAAATATCAGTTGTTTTATTTCAGACAAAGTCA AATTGAAGCAATTTTGTAACGTCGTTCCTATGAGTAGACTCAACCAACTCTCTCATTT TCGTTTGTTTTAGGTGGCGTCTTACTACTAACTAATTAATACTCCCATGTCCACACTT CATATATCTATAATCAAATTCCTACGTCTCTAGACGTCAAAACGGCTCGTATTTGGA TAATGAGAAAAAAAGAATTCAATCCAAAATCCGCAAAACTTGGTTTCTTGTCCCATA CTATTTCTTTTCTTTTCCGACTTTCATTACCATAAAAATACTATAAACAAAACTAAAC AATCTCAATTGTTTTTAAATAATTTATTTCTGGATAGCCGACCAAATTCCACTGTAGC ACTAACCCTAAATAAATAAATAAATAATCCAACAGTTGCACAAACCTTGTATATAAA AGGCCCTACTACTTCTGCTAATCATTCCCACGAAAAAAAGACAAAAAAAAAAACAA ATAACAAAATAACAAAATAACAAAAGAAACACACACAATATGGATTCTCTTCTGCA ATCCTTGCAACCCTTACAATCCATGACACCACTCTTGCTCATAATCCCACTCCTATTT CTCCTCCCTCTAATTTTCCGTTTCCGGCGACCACCACCATACCCGCCGGGCCCCAAA GGCCTACCCCTTATTGGAAACATGTTATTGATGGACCAACTAACTCACCGGGGCCTC GCCAAGCTGGCCAAGAAATACGGCGGCATATTCCACCTCCGCATGGGGTTTTTACAC ATGGTTGCGATTTCCAGCCCTGACGTGGCACGACAAGTCCTTCAAGTCCAAGACAAC ATCTTCTCCAACCGCCCGGCCACCATCGCCATCAGCTACCTCACCTACGACCGCGCT GACATGGCCTTCGCGCACTACGGGCCCTTCTGGCGCCAGATGCGTAAGCTCTGCGTC ATGAAGCTCTTTAGTCGCAAACGCGCCGAGTCCTGGGAGTCTGTCAGGGACGAAGT GGACTCGGCGGTTAGGACCGTCACAGTTCATGTTGGTTCGGCTGTAAACATCGGAGA GTTAGTTTTTTCGCTCACGAAAAATATTATTTATCGGGCGGCGTTCGGGACGAGCTC TCAGGAAGGGCAGGATGAGTTTATTGGGATACTGCAGGAATTTTCCAAATTGTTTGG AGCTTTTAATATTGCTGATTTTATTCCTAGCCTGGGGTGGGTTGATCCTCAGGGGCTA AACAATAGACTCGCTAAGGCTCGTGAGTCCTTGGATCGGTTTATTGACACCATCATA GATGATCACATGGAGAAGAATAGGAATGGTAAGGGAGTGAGTGACAGTGAAACGG ACATGGTGGATGAGTTGTTGGCTTTTTACAGTGAAGAAGCTAAAGTAAATGAATCTG AAGATAATTTGCAAAGCGCCATCAAACTTACTAGGGATAACATCAAGGCCATCATC ATGGTAAATAACTATTACACAATTTCATGTTACATAATTATATTATAACCCCACAGG TTGCATGTTTATGTAACCTGTTTTCTTGGACTAAACTTTTGGCTAATTTTTTCTTTTTA TCTGATCAGATATATTAATTGCGTATTGAGACTATGAAGATAGAAAGTTCATAGTAT ATTATTTTGAAAACTGATTGTTTAAATTGACGATCTGACTAGGTATACAACATGCTG TATATGCAAATTAATAAGCTAATTATATATGCTACGTATTTTCAGGACGTAATGTTTG GCGGGACGGAGACTGTGGCGTCGGCAATAGAGTGGGCCATGTCGGAGCTGATGAAG AGCCCGGAGGACCTAAAGAGGGTCCAACAAGAACTTGCTGACGTGGTGGGTCTAGA CCGTCGACCTGAAGAGACCGACTTCGAGAAGTTGACATACCTAAAATGTGCCCTAA AAGAGACACTACGACTCCACCCACCAATTCCACTACTCCTCCACGAGACCTCGGAG GACGCTGTAGTAGCCGGCTACCGCATTCCCAAAAGATCGCGTGTGATGATCAACGC GTGGGCCATTGGACGTGACAAGGACTCGTGGGAGGACGCCGAGTCCTTCAAGCCCT CGAGGTTTTTGAAAGAAGGTGTGCCTGACTTTAAGGGGAGTAACTTCGAGTTCATTC CGTTCGGGTCCGGTCGGAGGTCGTGCCCGGGCATGCAACTAGGGTTGTACGCGCTGG AGATGGCGGTGGCACACTTGCTTCATTGTTTTACGTGGGAGTTGCCTGATGGTATGA AACCTAGTGAGCTCGACATGAACGACGTGTTTGGACTCACGGCTCCGAGAGCGAGT CGACTCATCGCCGTACCAAGTAAAAGGGTGGTTTGTCCACTCTGATGGTGATGAAAA AACAGCGTTCGACGAGGAGAGATAAACAGTGGTGCAATTTGTTTGGAGTGTAATGA TACTGTGAAAACTGCACAGGTAGATTGCAAGCGTTTTTTTATTGTTCTTTTGAAAAAC TAAATAATTACAAAGAGACCATGAACAGTTGTGCGGGAATTTTTAGTTCTCTCTCTT TGTGTATATACACTCTCTTTTGTTTTGTTTAATATGTATGCAAATTTATCTTTAATTTC CTCTCTTTTTTCCTTTTTGTTTTGTTTTGTTATTATTGTATTGAAATAAAAATATAATG GCTAAGTTACAAAAATTATTTGTCATGGTGGAAAAATTGATGGACTGCTTATGTTAC GATTTCAATTTGTTTTCTGGGTCGGCGGCAATAGTAAAATTATTTTGTTTAAAAATGA ATGAAGAAAGATTAAGTAAAATTAACTCTTGAACAACGGTAGAATAATGTTAAATC ATGCTTACGACAGAAGTAGCTCACACTGTCCTCAGCAGTTGTGAAGATTGACACTTA ATTTGACTGATGCAGGTCAATTATACATTTATTTTGTGGTTAAAATTATTACATAAAA AATATGAAGAGTAAGGCTATGGAGACTAAATTTATGAGCTAAAATTGCAAACTAAA TGATATGTCATCAATAAAAAAATGAGTATGTTTATCAACGTTTAAGTAATAATACAA TAATCAACTTCAATGTCATTTAATTTACAAAACTTAATCTACAAATTTAGTCTCCCTA TCATTACTCAGATGTGAATGATTGTGAAAATGAATTAAGGTTGGTGAGGACTTTGAC ATAAATCTAAATATAATTAAGAAGGCTCTAGGGTAGTTCTATTCACACACTCATTTT TACTTCTTTCACATTCTTATTAATTTTTGTCTATTGATTTTCTTGAATTAATTTAATCT GGTAGCCGGAAATCAAAAATAGTATATGAGAAATAAAAATTAGTGTGTAAGTAGCA CTACCCTGGCTCTATATATGGTGCCCAAGTCAGATGGATGCATTTTGGTGGCTCCAT ATATTTGCAAGACAAGTGCCCTAGCTAGTGACCCGAAGAGATCTTATTTATGAACTA GTTGTATACAACTGTGTGTTATCTCTCATCATGTGGAAAAGTTAATTAGTATATAGA CAAAATTATCTGTAACTAGTAATTAAAAAAGTTTATAACCAAATGTGTACAACTATG TATCTACCGTGGTATAAGACCAGAAGTACTGTATATCATATAACATAGGATAGTTGG CTTGATGGTGCATTCCAACCGATATATGTGTGGAGGAAGTGTTGTAAATGCCTTGTT GAGCTGCATCAGCATCTGTGTGTGAGAGAGAAGGTGAATGAATATATTGAGTTTAG GTGGGCAGTGAAAAGTGAAGTGAGGAGGACGTGAGGCCTTTTCCTTGTACTATAAG GATGCGTTTGTTACACCTTCTTAAGGGATTGGCTTAAACTGACTTAACTAGAACTAT AATTCTACGTTTGGTATGTTTCTGGACTAGATTAGATGGAACTCACTCCGACTAACA ATCCCTCCACGTTTCGTTAAAGCTCGTTATTTAGTTCGGAGCTTTCGCTTGGTATTAA GCATGACTAAAATGGAAAACGAGGCCGACGCTTGGTCGTTTGCTACACCCGGACAT CCACTCTGCCTTCTTTCTGCTGCACCGTCACAAGGCCAGGTCGTCGGCGGTGCCTGT CTTATGTGGCCCAACCTTAGGTGATAGCTGCAGCTCACAGCTGAAGAGGCCCTGCTT TAGGCCAAAATCGCGAGTCGGTGGAGGACCTGGCAATGCTACCGTCGGTGGGCGTT GCTGACGAGAAGCAGATCAAGAGCTTGACGATGAAGGTTGGGAAGATCTGTACAAT ATCATTCGATTTGATTATTTGGTTGCAGGATGGGGAGATCTGTACATTTTTTTATACG ATTTGGTTGCTGACATGATTGAATGAGAAAATTAATTAGTTTTTAAAAGTTAAGATA ACTATAAAATAAGTGAGAGAGATGGTGAGATTGTGGAGATAAAAAGGTAAGTGGA GGAGCATGCCGGAGAAATCGAGAAGGGGAAGTTGAGCAGAGTTTGCTGGGAGAAG GATTGCAGTAAGAAATTAATTTTGATAGAAAAGAAATTAATTTTAATAGAAAATAA AATAATTAAATAAAAATTATTGTACTTTTTTATTTGTAATCCAAGCTACGTTAAACGT TTCA SEQ ID No: 84 >Pear_AGR44939.1 ATGGATTCTCTTCTGCAATCCTTGCAACCCTTAAAATCCATGACACCACTC GTGTTCATAATCCCACTCCTATTCCTCCTCCCTCTAATTTTCCGTTTCCGGCGACTAC CACCGTACCCGCCCGGCCCCAAAGGCCTACCCCTCATTGGCAACATGTTAATGATGG ACCAACTAACCCACCGGGGCCTCGCCAAGCTGGCCAAGCAATACGGCGGCATATTC CACCTCCGCATGGGGTTTTTACACATGGTTGCCGTTTCCAACCCGGACGTGGCACGA CAAGTCCTCCAAGTCCAAGACAACATCTTCTCCAACCGCCCGGCCACCATCGCCATC AGCTACCTCACCTACGACCGCGCTGACATGGCCTTCGCGTACTACGGGCCCTTCTGG CGCCAGATGCGTAAGCTCTGCGTCATGAAGCTCTTTAGTCGCAAACGCGCTGAGTCG TGGGAGTCTGTTAGGGACGAAGTGGACTCGGCGGTTAGGACCGTCACAGTTCATGTT GGTTCGGCTGTAAACATCGGAGAGTTAGTTTTTTCGCTCACGAAAAATATTATTTAT CGGGCGGCGTTCGGTACGAGCTCGCAGGAGGGGCAGGATGAGTTTATTGCGATACT GCAGGAATTCTCCAAGTTGTTTGGAGCTTTTAATATTGCTGATTTTATTCCCAGCCTA GGGTGGGTTGATCCTCAGGGGCTAAACAATAGACTCGCTAAGGCTCGTGAGTCTTTG GATCGGTTTATTGACACCATCATAGACGATCACATGGAGAAGAAGAAGAACAATAA GGGATTGAATGATGGTGAGACGGACATGGTGGATGAGTTGTTGGCTTTTTACAGTGA AGAAGCTAAAGTAAATGAATCTGAAGATAATTTGCAAAGCGCCATAAAACTTACTA GGGATAACATCAAGGCCATCATCATGGACGTAATGTTTGGCGGGACGGAGACTGTG GCGTCGGCAATAGAGTGGGCCATGTCGGAGCTGATGAAGAGCCCGGAGGACCTAAA GAGGGTCCAACAAGAACTTGCTGACGTGGTGGGTCTAGACCGTCGACCTGAAGAGA CCGACTTCGAGAAGTTGACATACCTAAAATGTGCCCTAAAAGAGACACTACGACTC CGCCCACCAATTCCACTACTCCTCCACGAGACCTCGGAGGACGCTGTAGTAGCCGGC TACCGCATTCCCAAAAGATCGCGTGTGATGATCAACGCGTGGGCCATTGGACGTGAC AAGGACTCGTGGGAGGACGCCGAGTCCTTCAAGCCCTCGAGGTTTTTGAAAGAAGG TGTGCCTGACTTTAAGGGGAGTAACTTCGAGTTCATTCCGTTCGGGTCCGGTCGGAG GTCGTGCCCGGGCATGCAACTAGGGTTGTACGCGCTGGAGATGGCGGTGGCACACT TGCTTCATTGTTTTACGTGGGAGTTGCCTGATGGTATGAAACCTAGTGAGCTGGACA TGAACGACGTGTTTGGACTCACCGCTCCGAGAGCGAGTCGACTCATCGCCGTACCGA GTAAAAGGGTGGTTTGTCCACTCTGA SEQ ID No: 85 >Pear_XP_009346304.1 ACAAAACCCCTTGAATTAGTTTAATTAGGAGCGCAGTTGCTATTAGCTTAT TTATTTACTTGACGCATAGGCATAGGTGGGATAGGGCTTTGCTTTAGCATAGGCCAA AAAGAAGCTCAATAAGCCGAAATATAGTACGTGTAAACCCCTTAGTTCCTCTTCTTT ACCATAGGGTAGGGGGTGTGAAGCTATAGAAACAAAAAGGCTACTTAACAGCTACT AAAGCCAATGGCGTAGCCACCCACAGGTTAAGGTGGGATGTAGCCCAGTGAGGTTT TTTTGTAAGAGTAGTGTTATTTATGCACTCATTTTTACTTTTCACACATCTTTCTTAAT TTTCAGTTGTTTGAATCAAATGAGATGGAGATAATCACTGACAGAAAATTAATAAGG ATGTGTTGGAAGTAAAAATGGGCTTGTAAATAGAACTATTCTTTTGTAAAATCATGT TTACAGTTTACTCAATTTCAATAGAGATTATTATTTAATGTATATTTTATAGAAGATA GGTAATAAATAATACATTTTATGCTAAAAATTATAAATTAGTTCTATCTACAATCCTT TTTTTATCATATTCTTTAAAGAAAAAGACCATTTACCCTATGTAATTTAGCCTTTGTG CTTCTTACTCAAGAAAAGAAAAATAATTTCTTTAAATCCACAATTAAATCCTTGTCTC CACAATATTCCTTAATTTCCGTAGCGATTTTCCAATAAATGTCACCTTTGTACTTTCT TAATCTCTATATTATTCTTGATTTAATTAGTAGGTTAATTATTTATATGGTCCATGAA TTTATCTGTTAAGGTTATGATTTTGAGAATAATTTATATTATATTGTTGTTCTTTTATA TTGATTATTATATAAGTTTATACAAGCAAAAAATAAACATATGATTTTATAGTACTTT TTTTCAATTAGCCCACCCAAAGAAAAAATCTTGGCTCCGCCCTTGACTAAAGGAACG CTATTTTGCTATTTTACAGCTTGAAAATGGCTCCTAAAGCTAACTACTAGCACTAGC AAGAGCTAATAGCAAAAACAGAGCTAGTAGCTAGCCGCTTCTATCTCTTCCTATATA GCTTAGCTTCAAAATAGCCCAAAGCAATTGTCCTATAGAGCTTCCACCTTCCCTACG ATATTAATCTTTAAAAAAGATTTAGTTTAGAAAAAAACCGTATGCAAGATTAATAAT TAAATTAAGTAGCTGACCCATTAGTTATCATTTATTTCTTTGTTATTCTTCCAATTATA CCCTTTTGTGATTGTTTGTAATGAAGACTTTTTTTTTTGGTTAACAATCATAGGACGT CATTTATTATAGCTTATCTTTAGGATGTATATGATATTTTGTAGTAGTTTTTTTTTTTA TTTTCATTCAAATTTCAAACTGATTTTAGTTCATATTCGAGAAATTAGTAATTCATAT TCTAAAATTAAGAGGGCTATACATATAGTATATTGTAATGATATCACCTTTTTTATAT ACATATTATTGTGGTAGGTACCATGATTTAAGTGCATTTGACTTGGTACTATGATTTA TGTGCATTTGATTATCACTAATATTTTTTTGGACGTCTAGATGAGGTATGTTTATCAT TTGAGAAAGTCAAATAATAATCAATGCCAAAAAATATGGAGCAAAATAAAACCAAA TATTTAATATGGGCATTATGGGAACAAAAAAAAAACATTAAATATTTAAAAGCTAG AAAATATGTATTTTAATATTTATGATGACATGGAAATTTAGTCAAAAGACTATAATG AATATAAAATCTAACATAAAGTTTTAATTGAATTTCAATATTTATCAAGGATTAAAA CTGAGAAACCCCTAGTTTAATTCAAGATAGCATGACCCAATGTAACAGCAACACCAT AAAATTAAAAATATAAAAATCAAACGGTAGCACAAATTTTGCATATAAAAGGCACC ACAATATCTCTTCCAACTTAATTAGCTACATTTTGAGTTGCCCTACAACTTCTACTAG GCATACCCACAGAAAAAAGTAAAAAAAAAAAAACAAGAACAAAAGAAACACACAC AATATGGATTCTCTTCTGCAATCCTTGCAACCCTTCACATCCATGACACCACTCGTGT TCATAATCCCACTCCTATTCCTCCTCCCTCTAATTTTCCGTTTCCGGCGACTACCACC GTACCCGCCCGGCCCCAAAGGCCTACCCCTCATTGGCAACATGTTAATGATGGACCA ACTAACCCACCGGGGCCTCGCCAAGCTGGCCAAGCAATACGGCGGCATATTTCACC TCCGCATGGGGTTTTTACACATGGTTGCCGTTTCCAACCCTGACGTGGCACGACAAG TCCTCCAAGTCCAAGACAACATCTTCTCCAACCGCCCGGCCACCATCGCCATCAGCT ACCTCACCTACGACCGCGCTGACATGGCCTTCGCGCACTACGGGCCCTTCTGGCGCC AGATGCGTAAGCTCTGCGTCATGAAGCTCTTTAGTCGCAAACGCGCCGAGTCGTGGG AGTCTGTTAGGGACGAAGTGGACACGGCGGTTAGGACCGTCACAGTTCATGTTGGTT CGGCTGTAAACATCGGAGAGTTAGTTTTTTCGCTCACGAAAAATATTATTTATCGGG CGGCGTTCGGTACGAGCTCGCAGGAGGGGCAGGATGAGTTTATTGCGATACTGCAG GAATTCTCCAAGTTGTTTGGAGCTTTTAATATTGCTGATTTTATTCCCAGCCTAGGGT GGGTTGATCCTCAGGGGCTAAACAATAGACTCGCTAAGGCTCGTGAGTCGTTGGATC GGTTTATTGACACCATCATAGACGATCACATGGAGAAGAAGAAGAACAACAATAAG GGATTGAATGATGGTGAGACGGACATGGTGGATGATTTGTTGGCTTTTTACAGTGAA GAAGCTAAAGTAAATGAATCTGAAGACAATTTGCAAAACGCCATCAAACTTACTAG GGATAACATCAAGGCCATCATCATGGTAAATAACTATTACACATTTTTATATCAGAG ATTATAACCCCACATTCAGGTTGCATATTGTCTCTGTAACCTGTATTCTTTGGACTAA ACTTTTGGTTAATTTATTCTTTTTATCTGATCAGATATAATATATTGTGTTGATTGAG ATTATGAAGATAGAAAGTCTAACATATTTAACTTTAAAAATAAATAATAGTTTAGGT TGATGATCTGAATACATAACATGTTGTATATGCAAATTAGTAAGCTAATTGTATATG CTATGTACATGCAGGACGTAATGTTTGGCGGGACGGAGACTGTGGCGTCGGCAATA GAGTGGGCCATGTCGGAGCTGATGAAGAGCCCGGAGGATCTAAAGAGGGTCCAACA AGAACTTTTTAACGTGGTGGGTCTGGACCGTCGACCTGAAGAGGCCGACTTCGAGA AGTTGACTTACCTAAAATGTGCCCTAAAAGAGACACTGAGACTCCACCCGCCAATTC CACTACTCCTGCACGAGACGTCGGAGGACGCTGTAGTATCTGGCTACCACATTCCAA AACAATCGCGCGTGATGATTAATGCGTGGGCAATTGGGCGTGACAAGGACTCGTGG GAAGACCCTGAGTCCTTCAAGCCCTCTAGGTTTCTGAAAGATGGTGTGCCTGACTTT AAGGGGAGTAACTTCGAGTTCATTCCGTTCGGGTCCGGTCGGAGGTCGTGCCCGGGA ATGCAGCTAGGGTTGTACGCACTGGAGATGGCGGTGGCGCACATGCTTCATTGTTTC ACATGGGAGTTGCCTGATGGGATGAAACCTAGTGAGCTTGACATGAACGACGTGTTT GGACTCACCGCTCCGAGAGCGAGTCGACTCGTCGCCGTACCGAGTAAAAGGGTGGT TTGTCCACTCTGATGGCGATGAAAAAACAGAGTTGGATTGAGGAGAGAGAAACAGT GTGCAACATGTTTGGGGTGCAATGTCAAAGTATACATACAGTAAAAATGGCAGGTA AATTGCACGCGTTTTTAATTGTTCTTTTGAAAAACAAAATAATTACAAAGAGACTTT AAAAAGTTTTGTGGGACTTTTTATTTCTCTCTGTGTGTATATAGACAGTCTCTTGTTTT GTTTAATATGTAAGCAAATTTATCTTTAATTTCCTTTTTGTTTTGTTTTGTTATTATTG TATTGAAATAAAATTAGTGGATGAGTTGCAAAATTATTTGTCATGGTGTAATAATTG ATGGACTGATTATGTTACGATTTTAATTTTAATTTTTTTTTTTGGTCGGTAGGAATGG TAGATTTATGTACAGTTGTGCTTGCGATATAAGTAGCTCATACTGTCCTCAGCAGCTC TGAAAACTGACACTGATTGACTTATTTCGATTGTACTTATTTGGTGGTTGAATTTGTT ATATTAAAGATGTGATATTGTGCGGATGGTGAGAATGAATGAATGTTGGTGAGGAC GTTGACATCTAAAGCTAAATATAATTAAGGCGGCTCTATATATGGTGCCCGAATCAG ATCAATGTCTTTGGTGGCTCCATATTTGCAAGAAAAGTGCGCCTTTTGTAAATACTAT TTATTTGGTATATAAGCGTGTCCTAGCTAGCGACCCGAAGAGATCTTGTTTACGACT AGCTGTGTACAACTATGCGTTATCTTATACATTTATACAACTGTGCACACGTATAGA ATTGTCCATATGTATATGTAATTAGTAAAAGAATTTCTTGTTTGTATAATTAGTTTTG TACAACTATATGTCTATCTGATCTATGGTATATGACCAGAAGAAGTACTGCAAAGCA TATATATAGGACAGTGCACTAGTTAACCTATGTGTGTAGGAAATGTTGCAGTGAATG CCCTTGTTGAGCTGCATCAGCATGTGTGTACTTTGTACAACCGAGAGAGAGAGAGAG AGAGAGAGAGAGAGATGGAATATTGAGGTTAGGTGGGAAGTGAGGACTCAAAGTG AGAAAGACGCGAGGCCTTTTCCTTGTTTTCTTTAAGTATATAAAAATATATCGATGA TCATGAGTCACAGTGATATATTTATTTAGAGTAATGCTAGGGAGATTAAATTTACAA ACTAAATGATGTGTCACCAATAAGAAATGAGCACGTTTATCAACATATAAATAATA ATCCAATCATTAACTTCCATGTTATTTAGTTTACAAATTTAGTCTCCATAACATTATT CATTTGTTTGTGTGTGAAAGAAGATTGTGCTTATCAGTTTATGTATGTATAACTGCGA GAGCTGGAAGGGGATCCATCGAAGATTTTCCGCCCTCAAGTAACACCTGGGGTTTTC TAAAGTTTGGTGGCTTGGTGCTCAAGAAATAGGACGCACTGTGCTCGGTTATTTAAC TTGAGTTGGCAAATGGACTGGGATTGAGTACCTATCCAGATGATTAAATATATATCT TTGCATTTGCCAATATATTATCACCTTTTTGTTTGTTCTTTTTAATATGGCTAAATATC CAAAATGGTGTCTGAGATTTGCATAATCAATAGAAATGGTCCTTGAGATTCAAAATC AATAGAAATGGTCCATGAGATTGTCTACCATCCATGATTTTGTTCATTCCATTAAAA ACTCTTTAGGCAATTTTCAAAACTTCGTAACTCAATCAATTCTTAACCAAATTCGACC CATAATATATCAAAATGAAGATAGGAAAGTGTAGAACAAGATTATACCTATTTGGA AGCCCAATGGTTGCCGGAGATAGCTGGAAAACAGCCTGAAAGGTGACTGGTTCGCG GGAAAATTGGAAAACTCGCCGGAAACTGGGTAAACTTTAAATGTTCATAACTTCTTC AATACTCAACGAAATCAAGTGATTCAAAAACGAAAATCATACTTCTCAATGAGATG AAGATAATGGTACCTTTCTCGATGGCTAACTCCTCTACTTCGTGGACGTAGCCAAAC TTAGGATGAACTACGTACATATTGTGTTTGCTTCCCTATCTCTATCTCTTTACATACTT ATCCTCACTAGTGACCGGAGCAAATAAGCAAAGGTCACAAACTTGACACTTTACATT GTTCCAAAGTCTTCACCGATTTTATGCATCAACAAGTACCAATATCATCGTTACAGTT TATCCATCAAGATCATGACCTAGAATTGGTC SEQ ID No: 86 >Pear_XP_009378429.1 CATGACCATAGCAGCTAAAGCCCTGTAACAGATCTAGCATCACACTGCTG TAAAAAGAATAGTGATCTCTGAGTTTCTGTATCTCATCGATGACAAAATACCTACAA TCGTATGTGTCAAATATTTATTTTATTATTAATATATTTGGTCCCATAATTACATTAA TTATTAAACAATAATTAAAAATCAATTTTAATCCTATTGGTTGTCAATGAGACTCAT GAATTAAACAATTAAATTAAGGCATTTGACTCCATCTTTGTTTGTGGTAAAAAATGT CATATATGACATCTCCTTTAGAGAATACCATGATATCTTTTAATCCTAGTTAACATAT TTGACATCTCCTTTAGACATGGTAAGAATTCAAATTATTCTTCCCTTCTTTTGTCGAA ATTCAATTAATTCCTTAATTAACTGGGGTATAATCTGTTTCCAGACAAGTGGATCCA AAATTCCCACTGCCACATTAGTGCATTCCTCATTAAAGGCTGCAGATCCCTTATTAAT TATATCAAGAACTCTCATAGTTTTATATGAACCTGACCAACCCCATTTTCCCAACAC AACCAAAGCCATGGAGCTCCTTCACCAAGCTCTTCAATCCCTGCAATCTTCACCCAT GTTGCTTATTCTTCTTCTTCTCCTCCTCATCATTTCCTTTATTTTTTTGTTTAATTCGCG CTGGAAACTCCCATATCTGCCAGGTCCAAAAGGATGGCCCATCATCGCTAACATGCT CATGACGGACCAACTTACCCACCGTGGCCTAACCCATTTGACCAAGCAATATGGCG GTCTCCTCCATCTCCAGATGGGGGTCATACATGTTATGGCCGTATCAATTCCTGATAT GGCACGCGAAATCCTCCAAGCCCAAGACAGCTGATTTGCCAACCGGCCAGCCAATG TTGCCATATCTTACTTGATCTATGATCGGGCAGACATGGCCTTTGCCAACTACGGCCT GTTCTGGCGTCGCGTGCGCAAAATTTGCGTTCGTGAATCTATTTAGCCGAAAACGGG CTCATGGGCTTCGGTGCGCGAGGAAGTCGAGATGGTCCAAACCGTGGCAGGGAAAA CCGGCTCCCCGGTGAATATCGGGCAGTTGGTTTTCGCTCTGACGAGGAACATAACAT ATCGGGTGGCTTTTGGGTCAAGCTCACATGAAGGGCAAGGCGAATTTGTGAAAGAT TTTGCAAGAATTTTCAAAGCTTTTTGGAGCTTTTAACATGCAGGATTTTTTACCATGG TTGGGTTGGGTTCATGCACAGGGTTTTCAGGACAGAATGGCTAGGGCATGTAAGTCA CTAGATGTTTTCATCGACAAGATCATCGACGACCATAGCAGCTATAACCCTGTAACA GATCTAGCATCACACTGCTTTAAAAAGAATAGTGACCTCTGCGTTTCTATATATAAT TGATGACCTAAGTACCTACAATCTTATGTGTCAAATATTTATTTTATAAATATATTGG TCCTAACCATCCTATAGTTACTTTAATTATTAAAAAAAAAATTTAAATTGATATTAGT TGTCAACAACACTCATGCATTATAAAATTAAATTCAAACCATATAAGTCTATCTTTA TTTGCGGTGAAAAAAGACAACTAGAAAGCAACGTCATATATGACATTTCCCTTAGA GAGCATCTAATGTCTTTTAGCCTAGTTAGCATATTTGACAAAAATGGTAAGAATTCA AATTATTCTTCCTTCTTTTGTAAAAAGTCAATTATTTCCTTAATTAACTATAGGGTAT AATCTGTTTCCAGACAAGTGGATCCAAAATTCCCATTGGCAATATACACAAAACAAC GCGTGACGTTTGCAAGATAAAATACATGGCAGATATCACCACCAAAGTCGCCAGTT ATTACTTCCCACATTAGTGCATTCCTCATTAAAGGCTGCAGATCCCTTATCAATTATA TAAGAACTCTCATTGTTTATACGAACCTCACCAACCCCATTTACCCAACACAACCAA CGCCATGGAACTCCTTCGCCAAGCTCTTCAATCCCTGCAATCTTCACCCATGTTGCTT ATTCTTCTTCTTCTCCTCGTCATTTCCTTGATTTTCCTGTTTAATTCCCGCCGGAAACT CCCATATCCGCCAGGCCCAAAAGGGTGGCCCATCATCGGCAACATGCTTATGACGG ACCAACTTACCCACCGTGGCTTGGCCCATTTGGCCAAGCAATATGGCGGTCTCCTCC ATCTCCAGATGGGGGCTATACATGTTATTGCAGTATCAACTCCTGATACGGCCCGCG AAATCCTCCAAGTCCAAGACAGCTCATTCGCCAACCGGCCTGCCAACATTGCCCTAT CTTACTTGACCTACGATCGGGCGGACATGGCCTTTGCCAACTACGGCCCGTTCTGGC GTCGCATGCGCAAAATTTGCGTCATTAATCTATTTAGCCGAAAACGGGCTGAGTCAT GGGCTTCGGTGCGCGAGGAAGTCAATGAGATGGTCCAAACCGTGGCGGGAAAAACC GGCTCCCCGGTGAATATCGGGCAGTTGGTTTTCGCTCTAACGAGGAACATAACATAT CGGGCGGCTTTTGGGTCAAGATCACATGAAGGGCAGGGCGAATTTGTGAAGATTTT GCAAGAATTTTCAAAGCTTTTTGGAGCTTTTAACATGCAGGATTTTCTGCCATGGTTG GGTTGGGTTCATGCACAGGGTTTTCAGGACAGAATGGCTAGGGCACGTAAATCACT AGATGTTTTCATCGACAAGATCATCGACGACCACATGGCTAAGAGGAAAGCAAACA CGGAGAATAAGGATGACAGTGAGGCTGCTGATACAGATATGGTGGACGAATTGATA GCTTACTTTAGTGATGATGCTGGAAAGGAAGGTGACGACCCCAATTCTGGCTTCAAG CTCACCAGAGACAATATCAAAGCACTTATTATGGTATGTATATTTGACAATTAAAAT TTTCTTAATACGTTATATTTGTTGGTGAATAGTCACACATCGGAGAAAAACAAAAAT AATATACAATTTTATGTGTGAGAGATATACTTCTAATATCATCGAGATTTTTTAATGA TAAAATTCAATACATAGCAATAAGTGGTTAAGTTAGAACAATAGATACACTTTATTA ATTTTTAAGAAACAAATCTGATTTTAAGTATTTGTTGTTAACTATTTTTGTAAGGAAT TAGGAGAGAAAACTATTCTGATAAGGAATTCATGTACTTAATTATTACTATATTTAT CATTTCCGATTGATTTAGTACTAAATAATACGATTATCCCATATATACGTAGGATGT GATGTTTGGTGGAACAGAAACGGTTGCATCAGTGATCGAATGGACAATGGCAGAGC TGATGAAGAGCCCAGAAGATCTCAAAAGAGTACAACAAGAGCTCACTGATGTTGTT GGATTGAACCGTAGGCTCCAGGAAACCGACCTCGAAAACCTAACCTACCTCAAATG CGCAGTCAAAGAATCCCTTCGTCTTCACCCGCCAATCCCTCTCCTCCTACACGAGAC CGTGGAAGACACCTCTGTGGCTGGCTACTCGTTCCCAGCCGGGTCACGGGTTTGGAT CAATGCATGGGCTATTGCTCGTGACCCGACTGCATGGGACGAGCCAGAAACATTCA AACCCTCGAGGTTTCTGGACGATGGCTCGCCTGATTTCAAAGGGAGTAACTTCGAGT TTATTCCTTTTGGGTCTGGTCGGAGGTCGTGCCCGGGAATGGCGTTGGGGCTGTATG GGTTGGAGATGGCTGTGGCTCATCTGCTTCATTGTTTTGCATGGGAGTTGCCCGGTG GGATGAAGCCTAGTGAGCTTGACATGAATGATGTGTTTGGACTGACTGCACCAAAA GCGGTTCAACTTGTTGCTGTGCCAACTTATAGGTTGAATTGCCCCCTTTGAATTAATA GTTTCAAGTAGACGAGGAGACGATGATGATGAAATATTACTTGGTTTTAAATCAGTG ATCGATGAGTAAATTTCTCTATGTAAAGGTACTTTAACGAATAAGGGTTTGTTACGT TCTTGGTCTCTCTTTACCAATTGAATAATACTATTGCTTTCCCCATGAGGGACGAGCT CATTATTCCTCTATTGCAAATAACAATATCTTCAACGTAGAAATTTCATAATTGGATC AGTTCAATATCTTCATCTTCATTTGAAGATCATCCTTACAAAAAATAATTTGAATTTT TTATTGTTTCATCATCCAAATGTATAAATAAATCAACGGTTTATCATGAATATGTTAC TTGATACCTACACTTATGATTTATTTGATACATTTGGATGGCTAAACGATCACCTCAA ATGATTTTTTGGAGGAATGATCTTAAAATGAAGATTAAGAGATTGAACGGTTCTAAT TATTAAAAAAAAAAAAAAAAAATCTATGTTAAAGATACGTTGCTTGCAACTGGAGG AATGACCTCGTCTCCCAATCCCAAGGAGAGTATGTAAGCATTATCCATTATTGTAAT AATCATTTTTAATTTTGTAATATCGCTATGTCGTTAATATTTAATATAAATATATGCG TGGTTGTTTGTTAACCTTTGTTGGCTTTCTGTCCTTTGTGGCTCAGCCTTGTATCTTTT AGTCAGTTTTTCGAAGACAAAACGGGAAAAGATTCCATCCAGATCTCTCCCACCAAA TCCTAAGGATCCGAAGATCCGGATCCTTAAAATTTGATTCAACGGCCACAAACAAG AGGTTCTTCTAAAAATTATAATAATTATAGTAGTTAGATCAAATTTCAAAGGTCCGG ATCTCTAGGACTTGGTGGGAGAGATCCGAAGGGGATCTCTTCCCTGACAAACAAGT GGGGATGTACTTTTAATGTTGGACTGTTGAAGTCCTGGAAAAACATCTTTCGTCAAA CTATATAGCAAAATAGTAGTAAGCTAAGACGCTTATGGTGTTAGATAATGGATTGAG GCTATTGATCAAGATGAATCTTTCGTAAATTTATACCAAATTTATGATCTCACAACAT AATTTGATGAACTTGATATGCAATATTGATCACACAAAGACTTCATCTTATAGAATA TTGGTTTATATCCTAAAAAATTAAATTTGTAGGGTTCATAAACTGTTCCATTAGGTGG TAACATATTAATTTGATATTGTGATGATACAAAGCTCAAATTAACAGTATTGTTATC AACTAACTATTGGTCTGGTAATTTTTTTTTTCTTCCCTAATGTTGGAATAAATATCTT GATTTCGATTCCACTCTTCTATACAAAAGATAATATAAATAGGAGCATAGCTTTCAA CAAATGACCGTTGAAATAAAAATTTTGAGTTCGGTTCCTTCCTTCCACACGAAAGAT AATATAAATCAATAGCATAGCTTTCAACAAATGACGGTTGCATTTAGACGAAAACCC TTAAAAGTTTGCCGACCCTTTGACACGTAGATAAGCAAATAATATAACTAGCTAATT GAAGTGGTTGAGAAATGGACATTGTGAGATTAGAATGCGTTAGCAATTGCGCAATG CAAACTATGATGTCGGTAGAAGGTGAAAGGATAAACCTCAGCCAATGACATTCTAT GCAGCTGTTTAGCTATAGCTTTTTGAGTCCAACTTCAAGGTAGAAGAACGATTACTC ATCAAATAAACTTATCATTCCAATCATCTTTAAAATAAGAGGAAAAAGAAATAAGT AAAGTTGCGTCGTTGAGTGAGAAATGAAAAATTCATAGAAAGTTACAACCCCTACC ACGTAATAGTGCACCTACATGCCTTCATCGACGTTGTTTCTCAATTGGATAGATAAA CGTTTTCTTCTAAGTCTAAACCCCCTTTCATCGATGTTGTTTCTCAATTGGATAGATA AAAGTTTTCTTCAAGTCTAAACCCCCTTTCATCAAGTGGTGAATTGACACAATGACT AGGACAT SEQ ID No: 87 >Peach_XP_007199246.1 ACCGAGATCTTTTGTGATAAAACTTCATACTTATTAAGCTTTGTAGATAAT TAAATTGTAAATAATATCGATGTTGTTAGTTGTGTACTACTAGTCTTTCTGAATTTAA CATCTACATCATAAGCAGTCCACATCACATATTATACATCTGACCTTTTATACAGAT AATCTTTTGTATACCAAACAATATAGTAAGTCCCCAGTAATGACTTGCCACGTTAGC CCAATCTTCATAAAGGCTGCAGATCACATTTTAATTATATAAGAACCTCATCCTTTTC TTTTCAACCTTATCAAATTCATAATTTATATTAACCTCCTCACCAACCCCATTTTCAA GAACACAAACCAAGCCACGGATGATCTCCTCCTTCACCAAGCACTTGAATCCCTGCA ATCTTCTTCCATGTTGCTCGTTCTTCTTCTACTCATCTTTTTCTTTATTGTTTTGTTCAT GTCACGCCCAAAACTCCCATACCCATCAGATTTGAAAAGGGTCCAATTTCATTCAAT TACTGCTAACACACCTCCAACCCCCAACTTTCTTCACATATGATGGCAATTTGAAAA TTAGAAGTTAACAAATTAGTGAGAAAAAGGAGACAAAATCGCTAGTCTTGGCGTAG CCACCGAAAGGGTGAGAAGAAGATTGAGCAATGATTAAGCTGTTGAAGAGAGAGA GAGAGAGAGAGAGAGAGAGAGAGAGAGAGGGAGAGAGAGGCCGAGAAGGCAGCG CGAGGTTGACGATGGGTTGGGGTGGGTGGTGGCTATTTTCTTTTTTCATTGAGTAAT GCTACTCTTACTACATTCTTGTACCACCTTACTTAGCAGATAAAGTGTACAGCTACAT CAATTAGAAACTGTTAATAAATCATAAAAGAAAAAAAAATATTCAATTAATTTTAAT TGATGTGGATTGTCCACCTTATCTGTCACTTAAAGTGGTATACAAATATGGTAAGAG TAGTATTATTATTTTTTTTTTCTTTTTTGATTTTCTTAGTTTTATTTAAAAGGATAATA ATAATTAGATTCCAAGTCCACCTATAAAAAAATATAAATTTTTATTCTTAAATGACA CATGGCAAATTTTCAATTGGAGTATCACAAGTTGAGATGGTAGTGGAGTACCACTAG GGGTGTACGTCGATTTGAAACTAATACAATTTAATCCATATTCGATCCAATATAAAT TCGATTGTGATATTTTCAATCCTATCCAATCATATTAGATGTTTAAATTCAATCGGAT ATGATCCAATTGATATTGGACTGGATTGGGTTGGATGATTGGTTTTGAACTTTTGATA ATGAAAAAAATATAATATTGAAATATTAAACATTTATTCTTAGGTTTAATCTAATCA AACATATTAAGACGTAAATGTAAAATATAAATGAAATATCAGAGAAAATTGTTTTG ATTATATAATATATTAAATATAATTCCATTAAATAACTTAAAATATTCATAACATTTT CAACTACAACTACCTATAAGAGCAAAATAAGCATTACTATAATATTAGACCAAATTT TAGCTAGCTAATTAGTATGTTTGAATTAATTTCCTTATAAAAATTATACGATATGTAA ATAATATCGACACGAATCCCGAGTTTCTAGATTTAAAGACATTCCACTTCTACATAA GCAGCCCAGATCACATATTATACATGTGACCTTTTATATAGATCCTTATTAATCTTTT GTATACAAAACAAAACGAATTAAAAGAAATCCCAATACAATTTCAAATATTTCCTTA GTGCAGACAAGTGGAGCCAAATTCCCACAGGGAATGGAGTTGGTGAGATTAGATCA TCCTCTATTGTAAGTCCCCAGTAATTACTTGCCACATTAGTTCAATCCTCATAAAGGC TGCAGATCCCATTTTATATATATAAGCAACTCATCCTTTTCTTTTCACCTTATCAAAT TCATAATATATATATATCAACCTCCTCAACAACCCCATTTTCAAGAACACAAACCAA GCCATGGATGATCTCCTCCTTCACCAAGCACTTGAATCCCTGCAATCTTCTCCCATGT TGTTCATTCTTCTTTTTCTACTCATCATTTCCTGGTTTGTTTTGTTCATGTCACGCAGA AAACTCCCATACCCACCAGGGCCAAGAGGGTGGCCCATTATTGGGAACATGCTCAT GATGGACCAACTCACCCACCGCGGTTTAGCTCAACTGGCTAAACAATATGGTGGGCT TCTCCATCTTCAGATGGGGGTCTTACATATCATGGTCGTATCATCCCCGAAAGTGGC CCGAGAAATCCTCCAAGTCCAGGACAGTTCCTTCGCCAATCGGCCTGCAAATGCTGC CATATCATACTTGACGTATGATCGGGCCGATATGGCTTTCGCCAACTACGGCCCGTT TTGGCGTCGCATGCGTAAAATTTGCGTCATAAATCTGTTTAGTCGGAAACGGGCCGA GTCATGGGCCTCAGTACGTGAGGAAGTTGAAGAGATGGTTCGACATGTGGCAACAA AAACCAGCTCACCGGTGAATATCGGTCAATTGGTTTTCACTCTAACGAAGAACATAA CTTATCGGGCAGCGTTCGGGTCAAGCTCCCATGAAGGGCAAGGAGAGTTTGTGAAG ATTTTGCAGGAATTCTCAAAGCTTTTTGGGGCTTTTAACATGCAAGATTTTCTTCCAT GGTTGGGTTGGGTTCATGCACAGGCTTTTAAGGACAGAATGGCTAAGGCTCGTAGGT CACTAGACGTGTTTATTGATAAGATCATCGATGATCACATGGCTAAGAGGAATACAA ATAAGGCCAAGAAAGATGACAATGAAGCTGAAACAGATATGGTGGATGAATTAATA GCTTTTTTCAGTGATGATGCTGCAAAGGAAAGTGACGACCCCAATTCTACCTTTAGG CTCACCAGAGACAATATCAAAGCTATTATCATGGTAAGTCTTACATGAAAATATAAT GAGGATTCATAATATCTCCATATTATTATCGTCAGCAAAATATACCGACATGTTGTT GTTGCATTTTTATAATATTTATGTGCGTGTCCATTCTTTAAATAATATATCCTGCATA GAGAATTTTTGATATATATAACAGTCCATACATAGATATTTATTAATAATTATTTTTT CAATTTTAAGAAAACCTCAACGGAATGAGGGAAATAATTATTCTTTTAATAAACATT TTAATACATTACTATAATTTTCTTTCCAATATTATTAACTACCAAACCCCCGTTCTAC TGATCACATCGTTCTCCAATATTGTTGCCCTTTATTTGAGGTGCCAACTCGGTCTAGG GGTTTTCCTTTTTATTTATTTTAATTATCTAAAATTGAAATTTTTTTTATTTATTTAGG TAACTTCACAAGCGGATTACATTGTAATTAATATTTTGTAATAGGTGGGTCAATGCT TTTTTCCTTTTCTAAATCAAAAGAAACAAATCTGATTTCTTGTGTTTTTTACTATATTT ACTCAGAATTTATGGTAAAATAAAGCACATTCTCATTTCTCACTCAGAAGATCAATA TTATGTGTTCAATTTTGGTAATGGAAATTATGTGTTTAATTATCACTCTGTCACTTCT GATTTACCACTTTGCATTCATAGGATGTAATGTTTGGAGGAACTGAAACGGTGGCGT CAGTGATTGAATGGACAATGGCAGAGCTGATGAAGAGCCCAGAAGATCTCCAAAAA GTGCAGCAAGAGCTCATCAATGTTGTTGGCTTGAACCGTAGGGTCCAAGAAACTGA CCTCGAAAACCTAACCTACCTCAAATGTGCAGTCAAGGAATCCCTCCGTCTTCACCC ACCAATCCCTCTTCTCCTCCACGAGACTGCAGAGGAGACTTCCGTGGCCGGTTACTC ATTTCCAGTTGGGTCACGGGTTTATATTAATGCATGGGCTATCGCCCGTGACCCGAC TGCATGGGATGAGCCAGAAACATTCAAACCCTCGAGGTTTTTGAAAGATGGCTCGCC CGATTTTAAAGGGAGCGACTTCGAGTTCCTCCCATTCGGGTCGGGCCGTAGGTCGTG CCCGGGTATGCAATTGGGGCTGTATGGGCTGGAGATGGCTGTGGCCCATCTTCTTCA TTGTTTTGCATGGGAGTTGCCTGAAGGAATGAAGCCTAATGAGCTTGACATGAATGA TGTTTTTGGCCTGACTGCACCCAAAGCAGTTCAGCTTGTTGCTGTGCCGAGTTACAG GTTAAATTGCCCGCTTTGAATAGTTTGAGGAGATTGTGAAATACCTTTGGTTTTAAA ACAGTGATGAGCCTATTTCTTTACGTATTGGTACTGGCCGCCGGTCCTGAATTTTTCA GGCCCCAGGGCAAAAGTAAAAATTATGCCCTTATATATATTTTAAATTTAGTGATGA ACTCACTTTCATTTTTCAACCAAGATTTAACCTGTTCACATTAACTAAACATTTAGCA AATAAATTATTTCAATTCAAACTTCAAAATAAAAGGCTACAATGTATAAACAAGATA AATACTTGTAACAATTCAGTAAGTTCTTTTTCATCCGGCAACAAGCAACCAACAAAT CAAAAATTTATATGCATGCTCAATAGCCAAAGCAAAACAACATCAATCTAGTTGAA ATCCCTTTGCATCCTCGTCCACCAGCAAAATAAAAAATGTCTTTGCATCCTCAACAA CACAAAGAACAACATAACCTGGAATTTGAGAAATCCCCCTCCACAACAACAAACTT GATATTTCCAAATTTGCAATCAGTTAGATCTTAAAAGAATTCTTGCAAAGAGAATGT GTAACTCATGTGAGTTCACAAATCTACAAAAAAAATAAAAATGAAAAAATAATATT TTCCTTTTCATTTGATATCAAATCATGAAAAATTACTTTCAATTGATTTTTACAAGGA CTGATTTTGTACTGAACAAAAGTCCACACTTTGAATTTTGTAATCTCCCTAATCTACC AATAGAAAAATTAATTTAGGGATTCACAACTCTGTAACTAGTAGGAGAGGCTTAAA TGAGATGAGAAGAAGAAGAGGAAGAACGAGAAAAAGAAGAAGAAGAAAAATTTTA AATAGATAAATCTAACGTTAACCTGGAGGAGTGGAGCGGGTTGCGCAAAAGGGTTC TTCTTGAGAAGCGAAAAGGATGCACGTTCTTCCAAAACACCATCTTTTTTTTTTTTTT TTTTCTCAAAAATATTAAATCAGTTTATAATAATATAATATAACACTTTTTTTTAAAA AAAAATTGAGCCCTTGAATAATAGGCTTAGGGCGGTCGCACTAACGGCCCTTGTTCA GGCCGGGCCTGTTTTAGTCTTCTATTTGTTCAGGCCCTATCACTGACTCGTTAGTACA GTTTGTTTGTATGGATCGATCAAATAAACAAACCAAAATATTCCCAATAAGAATCAA ATGATTAAACAATGTTGGCTAATTTTTATAAGGGGTGATCTTTGAATGATAATCTGA AAAACGAATGTCCAAATTATGAGATTATATTGCTAAGTGGACCAAAAAAGTGATCA ATGCCGTATTAACTTACTAATCGATTAATGCTTGATCACTCCTGATCAAACAACTAA GCCACATAATTATTTATGTAAAAATTTGGCCGCAAGTAACAAAAATTACTTGTAGAC GAAAACCCATATGTTAGCAATTATTTTCAAACGAAAATATACAAACCGCTCCCTTCG TGTGATGATTAATTTGTTCATACAAGGAGGAGGGAGGGAGGAACATTTCAATTTAAT CATACAACTGGGATCATGCCATTTCAGGCATTGGGCTTCTTTTATGCTATAAATTACT CATACAATCAAAATTGTTACTTAGGCCTTCTACGGTAAGGGTATAGAATGTCATCCA CACTCTGTTTGATATAGCTTCCCACTCTATTCACATTCTTAGCAACACCTGATGCTAC TAGTATTGCATTCCTCTTAAACCTGCATATATACAAATACTCAGAGTTTTAAAGTCTA ACAAGAACAAACTGAACTGGAAAACTCAAACACAAAACCATGTGAAAAAAAGAAA GTCATGGATAACTTCTTTTCTTTGCTAACTCAAAGTTCTACCATACCTGTTGAGATAT TCATCTCCTGTTGAATGTGGTGGTCTGTAGCTTTGGGGTTGAGGAATCGGCCGAACA TTTTCTGGAGACACACCAAGAATTTATAAACAAGGTTGCTGTGAATGTTATAAGAAA ATTCAGTCATTTTGCAACACTAA SEQ ID No: 88 >Peach_XP_007203643.1 AGCACATCTAAACTTATCATTTTTGGGGGATTTAAGTCATAATGATTTAGA CACCTCAAAATGGGCCATGATTTATCAACTAATGAGGCATGGCTTTGGGTGCTCTGA GGTTTTCCACAGCGCGATTCACACTGCTAATGGATGAATGAAATGAATATTATTTGA TGAAAATGAACGAGTGGGAAAATATCAAATCAAATCCCACAGGGCACAGGGCACA GGCCACAGGCATTGAATTAATTATTAAAATAATGATGATGTTATCATGATGCTAAAA CACGCAATCTAGCTACTTATCTCCTAATTCTGTAATCTTATCTTAGTTTTGAAGTATA TTAACTAAACACAACACCATTTAACACATTGCATTTCCATAAAATATTTGGAAGAGA AAAAAGAGGTTGAAATGGTGAGATGAAACAGTCAATTGCTCGAATGTCTAAACCTC GACAGCTACCTGAAATGTATAAGGTCCTGCATCAAATCTTTCACCTTTCACATGGAC AGACTGACCAATTGTTATGTGAAGCCTCAAACATACACTTTGCTATACACTAATGAA TCATCATTCACGTTGAATAAAGAATTAGGTGGCCAGCTAGCTGTGCTAGCTTTAACC CTAAAGACAAATAGAAACTCCCAAAACAAGCTCGGTTTGTTTTCTAAGCACCATCAA TTTGAATTAAAATTCAAGGAACAAAAATTCAATAAATTATTTAGTGAAATATGTACC TATCCGGGTCACTATTTTTTGGCTTAAAAATGTTAAATGATAAGATACGGTTAAGAT GGATGGTTTTTTAAGTACCGTTTATAACAAAATTTCTGCCAACAAAATCTAGCACAT TAGAAAGGGACTTAGTACTACTAAAAAAAAGAAGATGAATGAGGCATGCCATCATG AAGTGTTTTTCCTGATTAATTTTGTGAATTAAACAAAGTATACTGGACCCGAATGTT AAATGTGACTAGTTCGAGGAAAGTCCACAATTGCAGCATATGTTTTTTTTGTCTTGC AGCCATGGTGGAACTTTTCGGAACATTCATTTAACATTTGTTGAAATTCGTGCACAC CATTTATTATTGAGCTTGCTTGTTCTTTTATTAGTGATACATATTTGCGAAAGTTGAG TTCATTTCTTGCAAGTTACAATATAGTTACTCAATTGCGGGAAATTGAGATAACCAA TTTAAATTCTGCTAACTAACTTCTTGCAATTAACTTAATTATACATCTCTCACTCTCT AAAAGTCTTGACTTCAAGTCCTATCATTTGTATAATGCGTGTAATTTTAATATATTAT CGCCACTTTCAATAAAAAATATTCTTAAAACAATGTTATTTCACCTTCTTATTCTTTA AATAAAAAAGAAAAATGATACTTTTCAATCATATACGGAAGCTTCATAATATTTTTT TTTCTCTGTTAATTTCATTAATTCTAGAAGTATTCAATTGCTTTACTTCAGACAAAGT CAAATTAAAGCAATTTTCACAAAAATAAAGTAAAAGCTACCTACTCTCTTTTTTTTTT GTTAATTTTATATTTTATTTTATATCGAATCGAAGTCGACTGCAAAGAGGCGAAGAA TGCCTTTATACCGCTTTGACTAATTGATCTAAACTCATGTACATATTGCAGATAAATA TCCCTCATCACCGTTTATAAAGAAGGAATGTTAGTACGTATCTATACGTCAAAGCAG TTTGGAAATCCATATCTCCCAGTCTTTTCCCAGAGTCTTCTAGTTTTACGCTTACTCA TTCAGAGACAATAGTCCAACTTCCATCCATACCACAAAACATAAAATAATATTAAAA CAAAAATAAAAGACAATTTATTCAATTCATTTAAATTCTAAATCGCGTGACTAAATT CAACAGCAGCACACAAACTTTGTATATAAAAGGCCCCATAATATCTCATCCAACTTA GCAACATTTTGAGTTGCACACAACACCAAACTACTCTACGCACCCAAAAAAAACAC AAACCACATGGATTCTCTTCTCCAAGCCTTGCAACCCCTACAACCCATGACACTCTT CTTCATCATCCCATTCCTCTTCCTCTCCGGCCTAGTCTTCCTATACCGGTCCCGAAGA CGCTCCCCCTACCCACCGGGCCCCACAGGCCTCCCCATCATCGGCAACATGCTGATG ATGGACCAACTAACCCACCGAGGCCTTGCCAAACTGGCCAAGCAATATGGCGGCAT CTTCCACCTCCGCATGGGGTTCCTCCACATGGTCGGCATTTCAAACCCTGACGTGGC TCGCCAGGTCCTCCAAGTCCAGGACAACATCTTCTCCAACCGCCCCGCCACCATCGC CATCAGCTACCTCACCTACGACCGGGCCGACATGGCTTTCGCCCACTACGGTCCCTT TTGGCGCCAGATGCGTAAGCTCTGCGTGATGAAGCTCTTCAGCCGGAAGCGCGCAG AGTCCTGGGACGCCGTGAGGGACGAGGTGGACACGGCTGTCCGTACCGTCGCTGTT CAGGCCGGTTCGGCTGTGAATATAGGGGAGCTGGTTTTTTCGTTGACGAAGAATATT ATTTATCGGGCGGCCTTCGGGACGAGCTCGGAGGAAGGGCAGGATGAGTTTATTGG GATATTGCAGGAATTTTCGAAGTTGTTCGGGGCTTTTAATATTGCGGATTTTATTCCT TGCCTTGGTTGGGTTGACCCTCAGGGGCTCAACAACAGGCTGGCTAGGGCTCGTCAG TCGTTGGATAGATTTATCGACAGCATCATAGACGACCACATACAGAAGAAGAAGAA GAAGAAGAGTGAGGGATCGAATGGCGGTGAAACTGATATGGTCGATGAATTGTTGG CTTTTTACAGTGATGAAGCCAAAGTAAATGAGTCTGACGACAATTTGCAAAACGCCA TCAACCTTACTAGAGATAACATCAAGGCCATCATCATGGTAAATTATTGCGCTTTCT ATACCATATAAAACCACAATTAATTCGGAAAAATCTGAAAATGCTTACGTATTATGT TGTTAGACTGTAAGTTTCTATCGGATAATATTATTTTGAATTGATTACGAATCAAATT CACATTCCAACAACGTAACATATCAGTCATTTAGTAAACTAAATAAATGAACTAATT AATTGACATGTGTTGCATGCAGGATGTTATGTTTGGCGGGACAGAGACGGTGGCATC GGCGATAGAGTGGGCCATGGCAGAGCTAATGAGGAACCCAGAGGAGCTAAAGAGG GTCCAACAAGAACTTGCTGACGTGGTGGGTCTTGATCGCCGACCAGAAGAGGGAGA CTTTGAGAAGTTGACTTACCTAAAATGTGCACTTAAAGAGACACTGCGGCTCCACCC TCCGATTCCACTGCTCCTCCACGAGACGGCGGAGGACGCGGAGGTGGCCGGCTACC ACATCCCTAAAAAGTCACGCGTTATGATCAACTCGTGGGCCATCGGGCGTGACAAG GACTCGTGGGAGGACGCCGAGTCCTTCAAGCCCTCTAGGTTTTTGAAAGAAGGTGTG CCGGACTTTAAGGGGAGCAACTTCGAGTTCCTTCCGTTCGGGTCCGGTCGGAGGTCG TGCCCGGGCATGCAGCTCGGGTTGTACTCGCTGGAGTTGGCGGTGGGGCATTTGCTC CACTGTTTTACGTGGGAGTTGCCTGATGGAATGAAACCCAGTGAGCTCGACATGAAC GACGTGTTTGGACTCACCGCTCCCAGAGCGAGTCGACTCATTGCCGTACCGAGTAAA AGGGTGGTTTGTCCACTCTGAATCTGATGATCTCATGACGAGGATGAGAAAAACAG AGTTTGCATGTGTTAATTGGTGTCCCAAAATTTCAAGTATACATAACAATGAAACGG CGACGCACAGGTAAATTGCAGGGTTTTTTTTTTTTTTTTCTTCCTTTTTTTTATATTTA AAATATTTGGGAAGAACCCAGAAAACAAATAATTGAAAAGAGACTTTGGAAAAACG AAATGAGGGAATTTGTATTCTCTTTCTTTGTGTATAAACACTCTCTTTGATTTGTTTC ATATGTATGGAAATTTGTCTTGGATTTTCTCTCTTTTTCCTCTTTTTTTTTTCCCTTACT ATTGTATTCAAATAATGGATCAATTTGAAAAATATATATATTTGTCACAGTGGAAAA AAAATAATATTATTATTGCAAACACTTGGTATATAATTTTGTGTAATTTGCAATTCTT TCTCGTGACTTTAGGGAAGATATGTGGCTGGATGTGTGAATATTTATATTAAGTTTGT ATATGCTTGCGACTGAAGGTGTTCATACTGTCATCAGCAACTCCAAGAATTGACACT TTTGACTATTTCACTTGCTATATAGTGCTAAATGTGAATCTCAATATAAGGCTCTATG GTGCATGAATGAGTTAGAGCAAAGTATTTTGGTGGGTCCATTGACGAAGTTTCTCAA TAAATCAATCATGTGATGAAAGAGATAGACACAATTATACAATACGGAGTATCAGG GTAGCCGCCCTGCCCGTGGTGCAATATGCATCAAACATGTGCATGCAAAAGAGTGTT GTAATGCGCTTGGTGTAATATACTAGGTACTCACGAAAATTATACTAGTACTGAGCA CTGGAGTGGTGCAATATGCATCAAACATTTGCGTGCAAAAAAGTGTTGTAATGGGCC TGGTGGCAACAAAACATGTTTGTACTTGGTACAATTGATACAGAGAAGGAGAGAGG GATATATAAAATATATTGAGTTTAGGTAGGCAGTGAGGACAAGTGAGGAGGACGTG AGGCCTTTCTTGTGTTTTCTTTGGGTAGAATAATGAGACTGGGCATGAGGTTGAGAG GTGAGGTGAGGTGGAGGGAGGTTCCATCTGAGATTTCCCATCTTCAACAAACGTGG GATATGGACAATAGAGGACATAAGGGCCACCAATATGTAATCCAATCAGATTCAGT AGGATATTTGTATATTATATATCCATCCTTGTCCCTTTTTGTAAAGTTGGTGGCCTGG TGCTTGAATAAGACCCCACTGTGCTTAGAAGTTTAGCTTGCGTTTGGGAAATGGAGT GGGGTTGAATACTATCCTATCCAATCCAGTTCAAACACACCAACCTATTTCCATCCC ACTCCATTTTATTTTTAAGGCCTCTGTATTGCATTTGTGTATATGCCGCACTCAAATT AGACTGATGAGTTTTGAGATCAAACTTTGGAACACCCCAGGATGTAGATGTGTACAG AGAAGACCTAGAGATAGATTGATGAATGCGTTTTTATTTGTTAGATTGGAGGAAACC GAACTCTTAACTACTCGTCATAACCTATTACTCCAATTTCATTCCTTACCCCATTTGA GTTAACTCCCAAAGATTTTCAGTCACAAAATAAGGGTTACAACTTGAACTGTTCATC TAGTGTTGAATAATTAGGAGTTATAATGAGAGGATGCTTAATAGTCACTGATTAATT GCACAGCTATTAGTGGAAGGTTTTTTTGGTTTTTTGTTTTAAAAAGAAACAAAATTAT TAATAGATGCTATCAGACCCAGCCAAACCCAGCCCAACAAACTTATTGACGTTGGA CTTGCATCATATTGGCACATGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGACTTAATTGAATTCTAACAAGA TGAATATTTGGATTGCGTAATTGAATTCTTCCTCGGGCTAGGCCCCACTTACAATGTC CTAATCTTTCACATCTTTATCATATTTCTTAAA SEQ ID No: 89 >Banana_XP_009384541.1 TTAATTAGACTAATTATATATTATTTTCATAATTAATTATTTTAGTATCTCA ATCGTTATATCTTCAAAAATTATATTGAAATCCTTATACTTATTTTTTCTCACCTGCCT GTGATCTCATTATGTGAGAAGACGCCAAGCCAAAATTGATTGATTGATACATTGTTC GTGGTGGGAGCTGTAAGCACATCATTCGGTCACTCCCTTTGTTCGAAGTCCCTTCAG CTGAAGCATCAGAATCCACAGTGTATTTGCTCACCGGCAAATGAAAGTACTCTGTGA AGGTAGGTTAAGGTTATGGAAGACAATGACCTCTCTCTCTCTCTCTCTCTCTCTCTTC ACCACCATCACCCATTTCTAAGTGAGCATAAATCCCAGAGACTTGAATGACAAGCTC CCTTCATTACGACGTTTGCACGCAGAAAAAAACCATTTTTTATGTTTGGAATAAAAG TTAAACACCGGAATGAAAGATTCAAACTTATGCTCTATTCTGATATATATAATATAA AAGATTCAATTGGGTTGCTCTAATCCCAACATCCTAAACTAATAAAAGAAAAGGAC CCAATTATATTTTTTAGATAATTCAAAAGGACGCCATGCAAACTAAAAAATCATCAC ATTATAGAAAGGTAATAGTTTAAATAAATAGTAAGAAACCTCTCAATCATTCACTTA ACATTTAAAGATCGATTCATGTTTAAATTCTTGGGGAGTTAAAGTGATGTGATATAA AGAGAAATAAACTTTTATATATGAACAAATATTAGCGGGTCATAACACACAACATA ATTAAATGGAATCATAATAAAATAGAATACCAAAATATACGTGGAAAATCCCTTCA ATATGAGGATAAAAATCACAGGACAAACTAGAGATAATCCACTATAATAATAATAA ATATACAAATCTCAATCTCTTACCTAAAACCTTAGCAATAATCACAAAAGAATAACT GGGATACAAGGATCACATCACTGTGCACAATATCTAAATCCTTCATAATTCTCCCGA GTAATTATAGTAAGAATCTATTATAGATCTGATCTAATCTGAGATGAAAGCACTACT AGATGATTGAGAATAGTCTCTCTGTATTCACTTTGTTTTCTTTTCTTTCTTTCCCTTTC TTTCCACGACCCCCTTGATATAAATATGTGTTGTCCTTGTTCTTGTCTCTCTGTGAGCT TGTGAGCTTGTGAGCTGTGGATTGAATATAGGCTCTAAGCCCAACATAAAGAACTGA TGGTTGCGTGACGCATTGACGACATCATCTGCATCTCCGAAATCTGAGGTCTATCTT CTCCACGTACGATGCCATCACAATCAGATGTTAGAGTTCCTTACGAACATACAATAA AGATCGAGTTCTTTCAAATGCAAACACTAAACCACAACTCTCTTTTTCTCACGTCTGA ATTATCCGCCTAATTTAAGCATAACGTATGAAGAAAATTGTGCCCAGCATAAAAATA ATGATTTAAAAGATTTCTTGGCACATTTAGATTCTACAAAGTATACGATATCATGTA ACTAATGAGAATCTGCCTTCGACACGGAAGGCAGCAGCAGCTGAGTTTGGTGGGAG AAAATTGCCGGGTGCCTAAAATTGTATTGGCTGGGAGCCTTCTCTTCACACCACACG CTGTGTTCTGCGTTCCAGGCGTGGGGTGTCGTCACAACCTCGTCAGACTAACTCACC TACTTCTCTCCACCCCGACTGCAATGTTGATTATGGTGAACAATCATGCGTCATCATC ATTTAGGTTCTCTATTACACTCATCTTCTTCGCAAACCATAAATAAGTGAATAGGAC ATGACGAAAGGACGTTTGACGGATTGGAATTGATGTCACGGGAGGACGAATACAAA CACCTGTAGAGATCAAAGATACAAAATAAATACGCGGCGGGGATGGCTATTATGGA ATGAGATAAGCCTGTGGATCTTTTGTTAGTGGCTATTTATATGTGGCCTTCTCCACTC TTCTTCTCTCAGGAGAAGATATCTCAGAGAGAGAGAGAGAGAGAGAGAGGGTATAA CATATAGCGGCGGCAGCTATGGAATGGTCTGAAGAGGTCACGCCCCTGCACTTCATG GTATGCTTCGCTTTACCTTTGGTGCTCCTGTATGTTGTCGCTACGAGAAGACGAGGG AAGCTGCCCTTTCCGCCGGGGCCACCGCAGCTGCCCGTCATCGGCAACATGCTGATG ATGGACCAGCTTACACACCGCGGCCTGGCGAAGCTCGGGGAGCACTACGGCGGCCT CTGCCATCTCCGTCTTGGCTTCCTCCACGCCTTCGCGGTGTCCACGCCGGAGATCGCT CGACAAGTGCTTCAGGTGCAAGACAACGTCTTCTCCAATCGCCCGGCCACCATCGCC ATCTCTTACCTCACCTACAACCGCGCCGACATGGCCTTCGCCCACTACGGGCCCTTC TGGCGCCAGATGCGCAAGCTCTGCGTGATGAAGCTCTTCAGCAAGAAGCGCGCCGA GTCGTGGGCCTCCGTCCGTGAGGAGGTCGATGTGGCCGTCCGCTCCCTCGCCGACCG CGCTGGCTCTGCTGTCAACGTCGGCGAGCTCTTGTTCAACCTCACCAAGAACATCAT CTTCCGGGCGGCGTTCGGGACGCAGAGCCACGAGAACCAGAACGAGTTCATCTCCA TACTTCAGGAGTTCTCCAAGCTATTCGGCTCGTTCAACATCGGGGACTTCATCCCAT GGCTCAGCTGGATGGATCCGCAGGGCATCAACAAGCGGCTCAAGGTGGCACGAGCG TCGCTCGACAGATTCATCGACAAGATCATCGACGAGCACATGGCGAACCGCAAGGA GGCTGATGCATCCGATGCTGACATGGTGGACGACATGCTCGCCTTCCTTGATGAGTC CGGCTACCGCTGCCAAGCAGGGGAGAGAGATGATCTCCAGGGAACCCTCAAGTTGA CCAGGAACAATATTAAGGCCATCATCATGGTGTGCTCCAATATCCTATCGATGTCTC CCTACTTGGTTCACTTTCTTTGCTCCTCTTCACGCAATACAATTAGATAATCTCACAT CAGAATGAGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAT CTATCTACACACACACACATACCCAGAGCATGATGGTGATGCACGACATCATCAAA AGATAGCAATTTTTTCCTACCCAACCACACTTTAGAGTTATTAAAAGCATGATATTTT AATTCAAAGTAGTAATTATTATTTATTATGTTCTTCTGAATTCTTATATGATGGTTGT TTGAATTTGCCTCAATAAACTCAATTGCTTGACGACGCAGGATGTGATGTTCGGCGG CACGGAGACGGTGGCCTCGGCCATCGAATGGGCCATGGCCGAGTTGATGAAGAGCC CAGAGGACATGAAACGGGTGCAACAAGAGCTGGCTCATGTGGTCGGACTCGACCGG AAGGTGCACGAGAGCGACCTCGACAAGCTCTCCTTCCTCAAGTGCGTCACCAAGGA AACGCTCCGCCTCCACCCCCCCATCCCTCTCCTCCTCCACGAGACCGCCGAGGACTG CGAAGTCGCCGGCTACACCGTCCCCGCTCGCTCCCGCGTCATGATCAACGTGTGGGC CATAGGCCGGGACAAGTCCTCATGGGAGGACGCCGACGCGTTCCGGCCGTCGAGGT TCACCCCCGGCGGCTGCGCCGCGTCTCTCGACTTCAAGGGCAACTACTTCGAGTTCC TACCCTTCGGGTCGGGCCGGCGCTCGTGCCCGGGCATGCAGCTGGGCCTGCACGCGC TGGAGCTCGCGGTGGCGCAGCTGATCCACTGCTTCACGTGGACGCTGCCGGACGGA ATGAAGCCCAGCGAGCTCGACATGGGGGACGTGTTCGGGCTGACGGCGCCGAGGGC GGTGCGGCTTGCTGCCGTCCCTGCACCACGTCTCAGCTGTCCACTATACTGATCACT CTTCCACAAAGAATGAGAGCGACGCGTTGGTGGGTGTGTTTATCTTCTGCTGTTCAG ACAATAATAATGCTTTATTCTATATGAAAACATATATATATATATATATATATGCAT GAAATATTTTGTATCGGAGATTGCTTCGATGTACACCACAGAATAAGATCACTGATT GTTGATTGCAGCTCATTGCGGTGTTTTCCATTGTCTCATGGTGGACTAATACATCACA AGTATAAGAAATCGGCCACATTGGTCGGAGGTCAAATCGCATCCGCATATGCGTCCT TATTTAAAGTCTTTGGTTTCGCGTCAACTCCACTAGCATATGTGATTAATTATATATA CCTTCAAAACCTGTGATAATTTATTTACATCAATACATCCCTTCAAAACCTAAAACTT AATTCTGTATCACTATAATTGATGTCTATCAGCCGCTCTTAGTTAAATTTATAATTTC TAGTGTTATCTTTTAGATACTTATTATGATGTTACAAAATATTAAAAGTATTTTAAAT CATATATTTGTTTTTATTTAATCAAAAAATTAATATGAAACATAATTTTTACCTTAAA AAAATATTTCATTTAGGTCATGAAATTTACATAAGACCTATAATTAATTGATGATTG ATAGAAAATACATTATCGATCAATCTAACATGTGACAACCATGGTCTAAGGCAGAT GATTATGTATTGTCTCTCCCTTATCTCTTGCATCGATAAGAGATCAAGGGGAGGCTA TTGGAGGTAATTAAAGGTTACTTCCCAACAGAATATTCTGTCTATTTATAATTATGTA TAAAAGCTCATATTCAACATAATGAAAAAAGATGAAGGATAACCTTTTTGACCACTT GCATTCGTACTCATATATCTCGGGTTACTAACTTGAGTGTTAAAAAGATCGGGTTAT AAAACCTCTCTCAACCTCGATCTTTGTATAGGTGGCACCTCGAGAGTTTAATGTTTTT ACCTCAGAGGCACATCGGACAACCGTACGCATACGAGCCTAGACTATATTGGATTA ACCAAGATGTCAATAACTTCTTCCTGTAATATTTTGATACTAGAAGAGGACTTGATG TCGTAGAAATGCCTATCCATCGATTCTCTTAATAAATGCTCGAGTAAAGAGACTTTG CCCTCAACTTATAGTACTTTCACCTAGGGGGACAATAGACACCCTTTCTGCACATGG ACATATTCACCTCAGTGTGAATGCTAATACGATACTAGCGTCTATTCAATGACCAGG GTCTCTCACCCCTAGGGATTGTTAGGATCGAGAGCACTAAGAGGGGGGGGGTGAAT TAGTGCAGCGGATATTTTTCAGCGATTAAAAACCGAAAGCTGCGTTCGTTCGATAAA GACTATTTTGATGCAAAAAGCCGATTCTAAGATTACTTATGATTAAGTGCAGTTTAC GTTTAAACACAGTTAGCGTCTAAACGCAGTTTGCGTCTAAATGCAGATTGCGTCTAA ACTCAGATTGCGTCTAAGCGCAGTTTGCGTCTTAGCGCAGATTGCGTCTAAGTGCNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNN SEQ ID No: 90 >Banana_XP_009384087.1 CTATCATAAGTTAAAATCCATCTATCAGCGATCTTAACTTCGAATCTGTCA TAACCTTCAATGTGGTGGGCTAATCGATCAATAGTCTCATTGTCCATAAAATTGTTA GTGCTACTATTATCAATCAAAACTATAACATGCTGATGTTCTAGAGTTCCGCCAACT TTCATAGTTTGCGGGTTAGAATAATCGGTTAATACATGCATTGTATTATGGTATGCCC AACATCTTCGTTAGAATCTATACCTTCATGATCAGAGTCCACATTCTTAGCTTTTGGT TCCTCTCCAATTGGTTCAATCATCAAAAGTTGCCCTTATTTACATTGTTACTCCATAC TTCACTTTTCATCATAATACAAACCCATTTGGAATCTTTCATTGAGTTCTTTTTGGGTT AGTCTTCGGGTGTCAGAGTTTTGGTTAGCCGTAGCGGAAGGGAACGGACGTTGGCG CAGAGTGGCAACACCAATGATGAATTGACAGCGAGAAGAGAGCTTGCTCTAGGCAA GCGGCTCTGATACCATGATAGAAATAATAGAAGATAAGAACAATAATTGAAGAAGC TTTATTGTAGAAATAAAATAGCATTAGCTTGAATCTATTAACATGTTCCCTCTCCTAT TTATACAAATTAGGAGGAAGGATTTCCCTAACAGACTAAACAGAATAGAGAGATTT CCTCATATAATTGGGGAGATCTTATCCTTTATCAAGTTGGGGAAATCTTTATCTTCTA TCAGTTACTTGCACTCGAGGGTTCTAATTCGAAGTGATTGGTTAAATCCAACTCATG CGACATTTTTTTTCATCTCAGAAAGAGAAAACAACATTAATTATTGGTGGTGAGGTC TTGGATTGATTCCAACTTACTTCAACCACAAAAAGAATGAAAAGGAAGAGAGAAAG AATCCCAAATTAGGTTCATGAAGAGAAGAAAGAGACTCTACCTCTCCCCCTGTATGT CATTTTATTAGGTTATGAACCAAATCCTTGGTTTTCAGTCCCAATCAGTGAAGGAAA ATAAGAAGAATGAAAGAAGCAGATAATGATCAACTTGCATCTTCCAAGCTAAGATA AGAACTAGCAACCAGAATTCATTTAAAAGCGGATATATTTTGTTTATGCATCTACCA TCGATATTGATGTAACAGCTATTAAATAAGAACAGGCAAAACTTCATCTTCGATGGT ATTCTTTGACATCAAAACATTATTTTTACCCTTCTGATCGTGTAAATAGCTTAGAGAA CATGACTGTTCAGCTACAGGTTTTTTTAGCATCAAATCATTTGCCAGGATTCAAACA ACATTTTCTTCAAAGATATACGTTCTTTAATGATTCTTTCTTGTTTCAGAGGACACCA GCATATTGGACTACAAGCACAAGTGAACTTGTACTTGATGCTTAATGTATCGACTCT TGTGGTCAAGCACTAATAATACCACGATCCAAACATGTATCCTTTCTCATCAACCGA GTCCACATCTGAATCAAGATTAATTTTGCGTGGTAAGAGATATGATCCTTGTCTTGA CTCCTTGATACCATCAATCAGATTCCCAAAGGCAGTGGAATGACTACGTGAGCTGCC ATTTCAATCCCTGAACACCAGAAACTAAAGGACAAGGCAGGAAAGAAGTAGATCGA TCCTCTGTGTTACTTCTCATGTGCTGTGCTCACTGATAAGGTAGGTGACATGCGAAGT CTTGCCTGCACTGCTCAGGTGATGCTACTCGATCCAAATTGGGTGAAGAAAACAGCA AGGAGGGTGGAATGAGATGGAGCAGTTGCTAAGGCCTGTTCATGGATGCGCAGATG GAGTTTGGTGGGAGGAGGTAACTCCATTCCTACGTCGTCTTCAACCTACCCCATTTA AATACTCTCCCCTTCTACATCTATGGCGTCCCTACGTCCCCCCACCCTCACCAAGATG TACTTAGTGATACCTCATTGAATTGATTGCAGTGAGAGTCGCGTAGTCTTCTGCGTC AGTGGCTATATATTTGGCCTTCCCCTCCGTTGTACTCTTCGGGGTAAGAGACAAGTG ATCGCTTTAGACGATGGAATGGCTCGAAGAAGTCACCTCCATGCGCTTCGTGGTATG TGTTGTGGTACCTGTGACGTTGCTGCTTGCTGCTTCAACGAGGTGGCGGCGGAAGCT GCCGTTTCCGCCGGGGCCGACGCCGCTGCCCATCGTCGGTAACATGTTGATGATGGG CCAGCTCACGCACCGCGGCCTCGCTAAGCTGTCGGAGCGCTTCGGTGGACTCTGCCA TCTGCGCCTTGGCTTCGTCCACGTCTTCGCGGTGTCGACGTCGGAGATAGCCCGGCA AGTCCTCCAGGTGCAAGACGCCGTCTTCTCCAACCGCTTCGCCACCATCGCCATCAC CTACCTCACCTACGACCGCGCCGACATGGCCTTCGCCCACTACGGCCCCTTCTGGCG CCAGATGCGGAAGCTGTGCGTGATGAAGCTCTTCAGCAAGAAGCGCGCGGTGTCGT GGGCCTCCGTGCGCGAGGAAGTCGACGCGGCCGTCCGCGCCGTCACGGACGGCGCC GGCGCCGCCGTCAACCTCGGCGAACTCATGTTCAACCTCACCAAGAACATCACCTTC CGGGCGGCGTTCGGGACGCAGAGCCACGAGAACCAGGAGGAGTTCATCGCCATACT TCAGGAGTTCTCCTTGCTGTTTGGGGCGTTCAACATCGGCGACTTCATCCCGTGGGT GAGCTGGATGGACCTGCAAGGCATCAACAAGAGGTTCAAGGTGGCACGAGAAGCAC TCGACGGCTTCATCGACAAGATCATCGAGGAGCACATGGCCAACCCCAAGGAAGCT GACGCAGAGGATTCCGACATGGTTGACGAGATGCTCGCCTTCTTCGAGGAGTCCCGC GACCGCACGAAGGAAAACGAGGCAGATGAGCTCCAGAGAACGCTCAGGTTGACCA GGAACAACATCAAGGCCATAATCATGGTATGTGTCCATGCATAAATATGAACAACA CTACATCTAATTTATGGGAGGAACATTTCATGAACTTATCCGTATCAAACTTGTGAT CGGTTCATCCTTTGCTTCAATCACTCACTTCTCAACCAAGAACACATGCGGCTGTTCG ACTTGGAATCGATAGACTGATTGCTGAAGTGCACAGGATGTGATGTTTGGCGGCACG GAGACGGTGGCGTCCGCCATCGAGTGGGCCATGGCGGAGCTCATGAAGAACCCAGA GGACATGAGGCGAGTGCAAGAGGAGCTGGCCAGCGTCGTCGGGCTGCACCGGAAG GTGCGCGAGAGCGACCTCGACAAGCTCCCCCACCTCAAGTGCGCCGTGAAGGAGAC GCTCCGCCTCCACCCCCCCATCCCCATCCTCCTCCACGAGACCGCCGAGGACTGCCA ACTCACCGGCTACGCCGTCCCCGCTCGCTCCCGCATCATGATCAACGTGTGGGCCAT CGGCCGCGACAAATCAGCATGGGAGGACGCGGAAGTGTTCCGGCCGTCGAGGTTCG CCCCCGGCGGCGAGGCGGCCGCGCTCGACTTCAAGGGCGGCTGCTTCGAGTTCCTGC CCTTCGGGTCGGGGCGGCGGTCGTGCCCGGGCATGCAGCTGGGGCTTCACGCGCTG GAGCTCGCGGTGGCTCAGCTGACTCACTGCTTCAGCTGGGAGCTGCCCGACGGAAT GAAGCCCGGCGAGCTCGACATGGGGGACATGTTCGGGCTCACAGCGCCGAGGGCGG TGCGGCTGGTGGCCGTCCCTACGCCACGACTCACCTGTCCACTGTACTGATGGATCA CCCCGTCCATCCATGTTCATCATTTCCAGTGTTTCCGGAAGAACCAAGACAGGATTC GTACGCATGCCATGTCTGTGTGGGAGATTGCTTCTTGGTCAACATGGAATCCATGTT GCAGGCAGCAGAAATAAAGATGTATGATTGTGTCTCATGTGTTTTGGTGGAACAAGC AGTGTGTCTCATATATGTTATCTGTCTCATGTCAAATAAATAGACTTTAAGGCACTAT TATTCTTAAGTCAAGCTTTTTTTTGTTATATTTTGTTGAATATTTAATTTATAGATTAT TTTACCAACAAAATATAAAACATATGTAGTGCTACATATCCGATTACATTTCACATC TCTCAGTCCAAAAGGAGAAAAGCTTAGACATCTTTCGAAGAAGATTTGCACTGTAAT CGCTGCTGTGTGATTGTGATGGACATGTACAAGCGTGCCATCAGCAACAGAGGAGG AGCAGGCGGATGTCAAAGAATGGCCAAGTTTTGGGAATGGCTTAGGACAGTACGAA TCTGCTTCTGCTCTTTCGGCAAAGGTGGGCGCCGGCGGCGGCGACCCGGGTTCGGAC GCGCTCGAACTCTGCGGCGGGGCAGGGGATGGTGATGCCGCCGGGGTGGTGGAATC CGAACTCCTCCTCCGCCTCCTGCAGCAGCTCCCCGAACAAGGGGTGGTTGAAGTAGA TCACCGGAACCACGTACCTCCGCCCACGTACACCGCGATGTGCCCCTTGGGCGGCCG CCTCTGCTCCTCCAGGAGCGGAGCCCGGTCGCCGAGGTGGGGTCTGCGTCGTAGGA GGCGGCAGATGCTCCGGCCCCAGTGGGCGAGCCTCGTGGTAGCCGTGGAGCTCTCC ATCAAGGGCCGGGTGTGGTCACGACGTCGGCCGAGCCGCGAGACGCATCGCCATAT CCTCGAGAGACGGCGGCCCAACCTGAACCCTCCTTTGTGTCTCTTCATAATATGGAG AAGGTGCATCAAAACACACCCATTCCTTCTCTTTATGCACTGCACGAGAGATCCAAG AAGAGAGAGTCCGATGAAGAGGTCAGAGAGAGGAACAGTGAAGGGAGAAAGAGA GATGGCGGAATGAATATAAAGAGGGCTGGTCAACGGTATTATATATGTATATATAT ACATATCAATTGGGAATTGAGTACGGAAGAAACAGAAGAAGGCGGCGGCAAGAGG AGACGTGAGAGTATGGAGATGTGAACCGTGAGTTGGCTGCACCGTAGAACACACGG CCTGATGAGCTACACAAGCGTCGCGTGGCGGAGAAGAGTGTGGTGTAAACGCAAAC GCAAGTGGTGGTGAGAATCCCATGACAAAGACTTCACATTTGTTCTACCAATTGTCT CCGTTCTCCATCGCACGCTGATTTGAATGGGGAATTGGAGTGGGAAGAAGCATACTT TTCTTGTGTGCATGTATAACATGTTCACTCGGTGAAAGGGAAGCGAAGAAGAAGAA GAAGAATCAAAGAAGTTGCTCGTTGGACTTTAAAACCATGTCGACTGTCAGTAATGT TGATTATTATGTATGCGTCGACGACTCATTCCCCACTTAAATGTATGCAACCATCGGT AGCTGAGAAAGGAGAAAGGATAAGTGCACTGCTTGTGGCAGTGGCGAAGGGATCG ATGGTGAGATGAGCACCTCCTCTCATCTAATTCGGAATTAGAAGAGTACTGCACCGG GATGGCCGGAGCTCGTTACTCTTTTGTGGTCAATCAACTAATTGTTGATGATGTGTAC TTACTTCCATAGATTTGAGTTTAAAGTCTATACACATACTTCGATAATAATTAGTATT ATTTACATAGTGTAGTTAATCAAGTAGAACATTATATCACAAGATCGATATTTTAGG TGCAAATTTTATAGAGTGAGATTTTGATGACTCAATATAAAATAAGTGAGTCAAAGA TACCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNN SEQ ID No: 91 >Banana_XP_009411495.1 AACCAAACTACATACACATTGTTGACACTTTTTTTTATCATTGATAGATCA CTCATCAGGTGCAGTATGCCTTGTAGATATAATATTTCTACTTTGTCAGCATTGTTTA TTCTGATATAGCTAGTGATATGGTCATATTCACTTCCATATTGATTGGAAAGTTGGA AAACCAAGTCCTAGTAAGAGTGAGCCCAAAATATGATTCCTCTCTTAGAGACGCCCG TGCAGGACACTGTCGATGCATGCTAGTTTTCTGTCCATATAAAATTAAAGTCCTGTG GATGAATCATAAAGGTCACCTGTCATATGGCCATGGGTTTTCAGTTTCTGTTTCTAGA ATTTGTAGTACAAAACAAAAACCTGTAACTTTCGAGCATGTTTCCTATCATCATTCTT TTAGTTTTTTTTTTTCCTTTTCAACAACAAAAGGTAAGAGTCTGGTGCTTGTTAGAAA GTACGGCATGCGCATCTGCCCTCTTTCATATTTTTGAAGTTTAAATTTAAATGCTGTC GAGCGATGTCCCGTCATTTATTACCATTTGATCTGATTTTTGACTTACAGGTGTCAGA TAATGGCTGGGCTGAAGGTGAATGCAAAGGAAAAGCAGGTTGGTTCCCTTGCGCAT ACATTGAGAAGAGGGAGCGTGTGCTTGCAAGTAAAATTGCTTCAATGCTATAGAAG TGTTGCTTTGCACGAAGTGTGCATGTTGCAGTGTTGGGCTTCCATAAGCCGAAATAT CGTGTTTGTGTCTATGGTGTTTGTATCTTCAACTTATTTCTTGCATTTTCCCCCATCTT ACGGTTTGTTTAAATGGCCAATGCTGTCTGATATCTTTGTCAAAGGTTAAAGTAGAT TTTGCAGGAAAACAAAGTTATTTAGTAATCCACCACTTAAATTACTGGCTTTGATTA ATATAACTACTGTGGAATATGCTGCTGGCTGCAGCCAAATAAGATATGCCACGTTGC AAGCTATTGGAGCTCTAAATTGAGTGCTACCGGTGCCAATGGTCCTCTTGGTCGGAT GCAGTGGACATATAACCAGAGATAATTTGTAGTTTTCTGAGCCAGGTTTTTCTTTATG TTCTTTACATTTTTTGCTTGCTTTTTCGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT CTCTCTCTCTCTCATGATATATGTGTGACTCGTTTCCAAATGTATTTTGAGTTACAGT CACAGTCCCGTATTATTCTAGTTACATTGCATACAAGATGATGGTTTAACCTTGAAA GTCTAACTCATTAATCTTCATTTGAATCCAATGACACGTAGGTTTTGCCAGGATCTCA GTCTCTTCCCCTTGGAGGAAGTCTTGCAGCAAGAGGCAGAACGAAGGAATAGTTCC AAGAGGTAATGTTGTCGAAGATTCTTTCCTTTTTGATTTGCGATGGCAAATATATCAT TTCATTTCACTACCACTGAGCTGTTGCTGCCTGCGACAACTACTAGGCTCCGTTATTT ATTGAGGTGCGTGCGCCAGTGGGCTCATTAATAGTATAAGGATATCCATGCTTTCAG AATTGCTTCGTGTCGTGGCTCAGTTATCATTATCTTTCTTCATTTTTTATTGTCTTTGT CCATGCTTTCAGAATTGCTTCACGTGGTGATGGCTCAGATATCATTTTCTTTCTTTAT CTTTTTTTTTCTTTTCATTTTTTTATTGTCTTTGTCCATGCTTTCAGAATTGCTTCACGT GGTGATGGCTCAGATATCATTTTCTTTCTTTATCTTTTTTTTTCTTTTCATTTTTTTATT GTCTTTGTCCATGCTTTCAGAGTTGCTTCATGTGATGATGGCTCAGATATCATTTTCT TTCTTTTTTTTCTTTTTTTTTATTGTCTTTGTCCATGCTTTAAGAATTGCCATATCATTT TCTTCCTTTTTTTTTCTTTTCATTTTTTTTAAATTGTTTTTGTCCATTCTTTGAGAATCG ATTCATGTCGTCGTTGCTCCGATATCATTATCTCAATACATTTATCGAAGTAAAAAA AGAAGCTATGAGCTGATTGAATCACCTTGGCGTTTTCCCAAGGGTTGAGGTGGGCGT GTCACTAACCTGATTTGTGGAACCCGTTCGTTGGGTTCCATCACGTGCCTCCAATGTC ATGTCGGTGAAAGCCCACATCGACCATCATTCTATAAATCTGCACTCACTCCCTCTA ACGGTGACACAACTTTCATCAGCACAGTATGGTATGGGTCGAAGAAGTCACCTCCAT GCACTTGATTCTACTATGTTTGATGTTACCTTTGACACTCCTACTTATTGTCAACATT GCCGCAAGGAGGCGGCGGAGGCTTCCCTTACCGCCGGGGCCAACTCCACTACCCAT CATAGGTAACATGTTACTGATGAACCAACTCACCCACCGCGGCCTCGCCAGGCTCGC CAAACTCTATGGCGGCCTCCTCCACCTTCGCCTTGGCTTTGTCCACCACTTCGTGGTG TCCACGCCGGACGTCGCCCGACAAGTCCTCCAAGTGCAAGACAGCGTCTTCTCCGAC CGCCCGGCCACCACCGCCATCGTCTACCTCACCTACAACCGCTCCGACCTGGCCTTC GCCCAGTGCGGCCCCTACTGGCGCCAGATGCGCAAGCTCTGCGTCACGAAGCTCTTC AGCCGGAAACACGCGGAGTCGTGGCTCTCCATCCCTGAGGAGGTCGATGCGGCCGT CTGCACCGTCGCCAAGCACGCCGGCTCTGCTTTCAACGTCCGCGACCTCGCGTTCAC TCTCACCAAGAACATCGTCTTCCGGTCGGCGTTTGGGAAGCGGAGCGACGAGAACC AGGAGGAGTACATCGCCGTCGTCCAGGAGATCGCCACACTCTTGGGAGCCTTCAGC GTGGGCGACTTCATCCCATGGCTTAGCTGGATGGATCCGCAGGGCATCAACAAGAG GCTGAGGGTGGCACGAGCGACACTCGACCTCTTCATCGACAGGATCATCGATGAGC ACATGGCGACCGACGCCGCCAACGCAGACATGGTGGGCGTCATGCTCGCATTCCTC GAGGAGTCTTCTCACCACCACCGACAAGAAGAGGGAGATGATCTCAAGGGAACGCT CAGGCTGTCGAGGGCCAACATTAGGGCTGTAATGATGGTACGTATACATACGCTCTA AAAAGTAATACTATTTCCTCATTCTCTGTTACTGTAACCTGCTAAGCTATATATTTAT CTCCACATTGATATGGTTTCCATGTGCTTCGTTAATATCTCGTTGCGTAATTAAGACG ATTAAATTCTCATTTTTCTAACCTGTAAACCGTATCATCTCTAATTACGCAGGACGTG ATGTTTGGCGGCACGGAGACGGTGGCCATCGCCATCGAGTGGGCCTTGGCCGATCTA CTTACCAGCCCTGATGACCTGAAACGAGTGCAAGAAGAACTAGCCATGGTTGTAGG ACTCGACCGGAAGGTCCACGAGAGCCATCTCGACAAGCTCTCCTTCCTCAAATGCGC CATAAAGGAGACGCTACGTCTCCATCCCCCGTTCCCTCTCCTCCTCCACCAGACTGC CGACCACTGCGAGGTCGCCGGCTACTCCATTCCTGCTCGGTCGCCAGTCATGATCAA CGTATGGGCCATCGGCCGCGACGAGTCGGCATGGAAGGACGCCGACGCATATCGAC CGTCACGATTCGCTCCCGGCGGCGACGCGGCCGCTCTGGACTTCAAAGGCAACTGCT TCGAGTTCTTGCCCTTCGGGTCCGGCCGGCGGTCCTGCCCGGGCATGCAGCTGGGCA TGCACGAGCTGGAACTCGCGGTGGCGCAGCTGCTGCACTGCTTCACCTGGGCGCTGC CCGACGGCATGAAGCCAACCGAGCTCGACATGGGGGACGTGTTCGGGCTGTCGGCA CCGAAGGCGGTGCCGCTCGTGGCCGTCCCCACACCCCGACTCAGTTGCCCACTGAAT TGATCGTCTCTTTCTTGGATTTGGTTTCCACGAAATAATGAAATAAAGAAGCGGGAT TTCGGTAGCTTTCCACTGTACACACCATTAAGCTTCCCTCTGTTCGCAGTGTTTCATA TATGCAATAAATGAAGAGCTTCAGCTCTTTCCTGTAATACCCTCTTCATCAGCTGCCA AGAGTTACATAATGGTGATCGCCATTAGAGATATAACTCATACAGACATTTATCGTT ATCATATAATGGTGAGATCAGAAATGTTGTCTTCGCTCCTGTTGTGGGGAACAACCT TAAGCCATGGCCTCGGGGCCAACGTGGCTGGGTTCGGATCCGAATGATCGGGGATC TTGCTGAGCGACCCTTGAGACTAGTGAGGTGACCGACTGCAGTGGTCCGATTACGAC AGGACGGTCGTTTCCTCTGGAAGGAAACTCCTCGCCTGGGTACGCGATGGGAGGTG CTTCGTCTTCGTCCCTGCACACAGGTCGGGTCGGGAGGCTCGACTTGACCCTCCGAC GATCAAGTCAGTGGATAGTCTTAGGGGGTTTTTCTCATCTTTTTTCCCCCTTCCTTGA GCTGAATGCGAGGGTTTTTATAGGGAAGCTTATTGTCTCATGATGTGCCCACACTTG CAGGGGGCAGGCCCGTACTTTCGATAGCGTCTGACACCAATGTAGGCGTTGCATGA AGAACCAGGCTTGCGCAGGACGTGGCGTGCCCTGATCGTCATCCTGGTCTGCCTCGG TCAGGCGCGTCAAGTCAAATCGAGGCATGGATCATTATCTTGGAGGAGCTGATGTCA ACGCACGTCCCATCGTTATTACCACTATCAACTCCTATCCAACAAAATAATTAAAAT TATATATTCATTCGGGATCTTTGGTTATTATTATAAATTAAGCTTTAAATTCATGAAA AGACGGATGTAATTTTGGTCAACCACAAATGCAATCATATAATCTTGTTTTGTCTAT ATTTCTCCACTATTAACCGTCATGATCTTATTATTTCGTATTTGCATATTAATTAATTA ATTAATTTATTTATTTTCTTGACACCCAAAAATAAACGCTAAGAGGCGACAAAGCTG ACGTGTGATGCGATCGGAGAACGGTATAAGCAAGGGGGGCAAGAAGTGGTGCGTTA TGGTCCGGCATCTATTGCCACCCAGTCTCCTTCCGAGACCGCGCCGCCCCGGTTGAT CGCCATCGCCACCAGCGAGATCAAGAACTTGCACGGCGGGGCCCCGGCCGCGATGG CCCCGTCGTTGCTGAACCCGACGCATCGGTACGCGGCGGGCGCTCTGCTGGCCCTCG CCCTCCGCCAGGCCCAGATCCACCAGACCCGCCCCCTCGGCTACGACGACCCCGACC CCGACGCACAGGGCCGCTGCAGCACCGGAAGCGCCACCAGCAGCGAGGGCGGTGG CGACGACCCCGAGCTCTGGACCCACGAGTCGTGCGGCCTTCTCCGCCCCGTCTTCAG GTCCCCCTCTCGTTCTCTCCTCTCCTTCCTTTCGAAAAACCGTTTCCGAGTCTTCCTTT ATTCTTTCTTCTTTGGGGAAATAGGTTCTTGGATATAGACCCCAAAGCCTGGTCGGG CTTGGAGGAGACTGCGGCGTCCTCCATGGCCAAGCATCACATAGGAGCGGTACACT CGATTTCCTTTTGACTCCGTTGATTGTTCTCTTGGTCGAATTGCTTTCTTTATGGGCGA TCGTCGTGATAATCGTAGAAACTGCTTATTAGCTTGCACTACTTGTGAGTTGTGATG GTAATTCTAGCAAGAATGGTCGGACATGCTTTCTCTGTGGGTGATCTAGTGATTATG GGAGAATCTGCTTAATCTTGCCCTAGTTTCTGGTTCTTGTGAGTCGTTAAGGTAATGA TCGCCCGGGAGGATCCAACTTGTTTGCACTGTAGGTGGTCATGGTGATAATGGAAGA ATATGTTAGCTTGCCTGCCCCCATCTTTGGTACTTGTGAGTTGTGATGGTAATGATAG CCAAGAATTGTCCGACTTCGTTTCTCTCTGGGCTGTCATGGTGATAATGTAAGAATCT GTGTCAAGACCTGTCATGGTAGCCAAGAAGGGTCTGACTTGCTTTCTTTATAGGCTA TCCTAACCATATTGTAAGAATACGGGTCTGACCGTTCG SEQ ID No: 92 >Banana_XP_009403617.1 ACGAGGGGGAGGGGCGGTACTACGTGGTGATCGGAGGAGTTGCCGGGAA CCCGGGAAAAGAGACGCTGAGCAACTGGTTCAAGATAGAGAGCTACCAAGGAGTCT ATAAGCTGGTGTTTTGCCCGACGGTGTGTGATTATTGCAGACCTGTGTGTGGATCTCT GGGTGTCTACGAACAAGGTGGAAGACAGTGGCTCGGTATCAGGGATGACACGCCAT TCCCGTTCGAGTTCAAGAGGGCATGAGCTTCGGTACGTGAATACATCTACTGTCATA CATCTATATATCAATAAAGGAGGCATTGTCTTCGGTTGATGGTGGAGGCTTGCATGC TTTGTTTGAGTCCCCGCGTGTGTGGGTATGGGTGTGGTGGATTGGCATTCTCAAACTC TTTGTGCCACACTCCCATGAATCATAGGTTACCCTCAAACATAGGAGAATGAATCTC TCTATCAACATGAGTGACTCTTTTCATGCTGTGCAAAAGGATAATAAGTTATAGATT CTGTCTCATTAGGATATATATATTTCTATTATTATGATATTTAACTTTTTTATAATGAT GAAATTATTAAATAAAATTAAATTAGCTAATGGTGGGTTACCACCAGACTTTTTCTT ACAATGTATTCCTGACAAAATGAATTTTTGTCCATTTTCTTTTTAGAGGTCTAATAGA AAACAAAAAAAAAAGGTGTGGAAGAAAATAAAAAATAAACATGGGTTGAGTTGTG CGGAAGAGATAGATCTCGCGGAGAGTTAATTACATATTACCTCTAACTATCTTATCT TTAGCTTCTCGATCTATATTCTTATAAGAATTATATTAGGGTTTCTATATCTACAAAA GTAAATTATTGAGATCCTTATATTGGGTTAGAAATAAAAGAATTTTATTGAATCAAC ATGATTAATATAATATATCAATGTAATTTTTGAAAGTATAAGGATCAAAATACTAGG ATAGGATGACAATGGATAGAGAAACATTAGACAGGGTTACCGATCAATAGGGAGTA AAATGATTGAAATGGGACTCAACAATTGAAATATTTCATGGGTCCCACCCACCACGC AAATACTGCACGTGTAGAGAGCATACTTGTCTCCCGCCGATGTGATGGTGTTCACCG TCTCACATCGAATCAAAGGATGATTCTAACAAAGTTGTTCGTTTTGTGCTTAAAAAA AAAAAAACAAATCAGTTCTTTGTTAATAAAATTAAGGTAACAAAGATATGAAATCA AAATAAAAATATTATTATGGACACTGTCACATCTGATTAATGGAAAAATCTTATGTT ATGGTGGTATGAGATTCGCATATCATGTAGCTTTTTTATTTCCAAGTGATAAATTCTC TCAGCTTTTATTATTTATTCTTTTTGGAGGTTTCCTTGTTAATTTTATTATTTTACATAT CAAAGACGATCAACTCTTTGGAATGTAAAATAATAATGAGTTAGTTAGGGCATTTTA GTATATTATATATATATATATATGTATATATGTATATATGTATATATGTATATATATA TACATATATATACATATATACATATATATACATATATATATATATGTATATATATATA TATGTATATGTATATATATATATATACNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNATATATATATATATATATATATATATATATATATATATA ACTGTGCGTTTTCGAAATTACTTAACGTATATATACTTGTAGTGAACAAAAATCTGA TCACCCTTATACGAGAGCCGTTCATTCTAGTTACCTTTTAATCTCGATCGTTCAGGTT TTCCCAGAAAAAATAAATATAAAAAGAATATGACTCGATCATATCAGCTGGACGGC CCCCCCTTTGGGTCACTATAAGGAGCGCCCTCCGGCCACTCCGGGTCCTGCCGACAC CGCTGTCTGTCGGTCTTCGGTGTCCTCAGCTAGAAGAGGAGCCATGGATTGGTTTCA CCAACTCTCGTTCATGGTTGCTTCCGTTTTCATCCCACTCGCTCTCTTATCGTTCTTCT GCATGAGAAGCGGACGAAAGCTTCTGCTGCCGCCAGGGCCGCAGCCGCTACCGATT ATCGGCAACATGCTCATGATGGACCAGCTGACTCACCGCGGCCTCGCGAGGCTTGCC GAGAGATACGGCGGCCTCTTCCACCTCCGCCTCGGCTCCCTTCACGCCGTCGTCGTG TCCACGCCGGAGATGGCCCGGCTGGTGCTGCAGGTGCAGGACGCGTCGTTCTGCAA CCGCCCCGTCACCGCCGCCATCGCGTACCTCACCTACGACCGTGCCGACATGGCCTT CGCCAACTACGGTCCCTTCTGGCGCCAGACGCGCAAGCTCTGCGTCATGAAGCTCTT CAGCCGCAGGCGCCTCCAGTCGTGGGCGTCGGTCCGCCAGGAGGTCGACTCTGCCG TCCGCTTCGCCGCTAGACGGAGCGGGTCGTCCGTCGATGTCGGCGATCTGGCCTTCA CCCTCGCCAAGAACGTCACCTTCATGGCAGCTTTCGGGGCGCAGAGTCACGGGAAC CAGGGCGAGTTCGCCGGCATACTGCAGGAGTACTCGAAGCTTTTTGGGGAGTTCAAC ATCAGCGACTTCCTCCCATGGCTGCGGTGGATGGACTTGCAGGGCATCGACAAGAG GCTGAAAGTGGCAAGGCAAGCGATCGATCGCTACATCGACGTGATCATCGACGACC ATTTGGCCAACCCGAAGGAGGCGGATGCGCAGGACGCCGACATGGTTGACGGCATG CTTGCATTTCTTGGGGATTCTGGTGACACTAACGAGGGTGGCGATCTCCATGGTGAT CTAAGCCTCACAAGATCTAACATCAAGGCGATAATAATGGTACCTCTCTCTCTCTCT CTCTCTCTCTCTCTCTCTGACAGCTCTGCCGTCAATTATAATGCCTTTGCTAGTATTA GAATCTCAACATAGATTGAGGATATATATGTAGACGAATACACGTTTGAACTCAGA GATCAGATTTTAGTTTGAGTAATTCTGTGGCATGTCAGTCGCAATCATGTCTTACATG TCGTCTTCAGAGATGGAGACATCCTCTTCGGCTGGATGTTGGCATTATCTTATGCAA GCAGGCAACAAAGCCAGCTTGAAAAAGTCATTGAAATTGTTGTATTTGTTGGGGTAA ACAACTTTATGCCGTGGTCTCGGGACCGACGTGGCTTGGTTTGGGTCGGAATGCGCG GGGATAGCCGGGGTGGCCAGTTGCGATGGTCCAGGCGGGACGTTGCGTGTGGAGTG AAGCTTTTCCGCAGTGCCGGGAAGATGCAACCCCGCCCTTGTACCTGCACACAGGTC GGGTCGGAAGCTCGGCTCGACCCCTCCGACGATCAAGTTAGATGATGTGGAGGGAG TTTTTTAGTGAAGAAGTGTCCCCCCCTCCTCGTTTAGAACTCGGGGGTATTTATAGGG CAGTTTAGTATTACCTGATGTGCCTGCCTGCACGAGACAGGATCGTACCTCTGATGG CGTCTGACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTGGGCAAGCCGTCCTGAGGTTT GCTCGGCAGTCTGTGGCCGAGGAGCTCGGCGCAGGCGGGCTGCGGCCAAGGGATGC AACTCAGGTGGGCAAGCCGCCCTGAGGGGGGCTCGGCTGTCCATGGCCGAGCCGTG TAGATTAAGAAGATTTTAAGCCACGAGCCGAGAGGGGGTCAGGTAGATACTGGACC TTGGCTCGAAAAGGGCTGAGGCAGGGCTTGGATTTCTTTTCATGAAGACTACATGGG GTAGCCACCGCGGGTGCTCTAACTCTGTTACGGAGCCCGCGGTCGGGGGCCGTTGCT TCTCCTCATGGCCGCCCAGGCTTCCGCCGCGATGTGCCGGTTAGCGCGCTGGAGCAT CTCTGGCACCGTCGTGGGAGGTTGCTCCGCGAGTGAACAGAGGAATCTGGAAGGTC GCAGGCCGATCATGAACGCCTGCACTAATAGAGAGGAGTGAGTGTCCGGCAGGCCC CGGATTTGCGTGGCAAAGCAATCCACAAAATGGGAGAGGGGCTCATCCTCCCCTTGT TTGAGTCCGAGGAGTGGTGCCGCGGAAGGCTTCGGCCGTACATAGGCCACAAAGTG GAGCTCGAAGTTCTTGGCGAGCCGATCGAAGGAAGCGATGGTCCCGGTCTTCAGGC CACTGTACCACGCGCGGGCTGGACCCCACAAAGTTGTTGGGAACGCTCTGCACATC AAGGCGTCAGAAGTCCCATATAGCGCCATCTGGGCGCGAAAAGTGGCTACATGATT CGCTGGGTCAGCGGTGCCGTCGTAGGCGTCCAGCGAAGGGAGTCGGAAATGCGATG GAATCACTTGATCTTGTATTTCGGGCGCGAACGGGGACCCTTGGTGTCCGTCCGCTC CGAGCTCTCCTTTTGACCTGCGAACCTCCTGCTGTACTTCGTCGAGGCGTCGACTAA CGAGGCGCAACTGGGCTCGCAGGGCGTTCGTCGAGTCCGCGGATAGCGCCTCAAGC TCTGGGCGACTCGACGTGTCTTCCGCCTCTCGGTTCCCGGGCTGGGCTGTTCGGTTCC GAGGTGAAGCAGGGAGCTCGGGAAGTGGTGCATGAGTCTGGGTGGGGGGCTCCCGC TGCTGCAGAGGCTGGGTTATATGCGGGGTCGTCGGTTGGGAGACGAGCGGGATGAT AGTTTGTACCACGCCCGCCAGTGCTCGGACTTGATGAGTGAGGTCGTGGAAGGCTTC GGGCGATACAGGCGACGGGCCGACGGGGTCGTCGGGTGGCGACAAACCCGGGTCGT TGAACAACCGCCAGTAGCGCTCCGATGTCGTGGCAGGGCGTTCGTCTCGGGGTTCAT CACGCATGGGATGTTCTTCTAGGGTGTTGATCGGACGTGACCCCATGGCTGCGGGTT CGCCAGAGTGGATCTACTGATCGCTCGACATTCGGGGCCCTCCTTCTAGCGCCAAAA TGTTGGGGTAAACAACTTTATGTCATGGCCTTGGGGCCGACGCGGCTTGGTTGGGTC CGAATGTGCGGGGATCTTGCGCGGCGTTCCTCGGGACAGCCGGGGTGGCCGGTTGC GATGGTCCGGGCGGGACGTTGCATGTGGAGTGAAGCTTTTCCGTAGCACCGGGAAG ATGCAACCCCGCCCTTGTACCTGCACACAGGTCGGGTCGGAAGCTCGGTTCGACCCC TCCGACGATTAAGTTAGATGATGTGGAGGGAGTTTTCTAGTGAAGAAGTGTCCCCCC CTCCTCGTTTAGAACTCGGGGGTATTTATAGGGCAGTTTAGTATTACCTGATGTGCCT GCCTGCAGGAGACAAGATCGTACCTCTGATGGCGTCTGATNNNNNNNNNNNNNNNN NNNNATCGCCCTTGTCGTTGCGTGGAGAACCGAGCTGCCGTAGGGTATGGGCGTGC CTCGGTGGTCGTTCTTCTCTGCCTCGGTCAAGCGCGTTGGGTCAGGCAACGATGAAG TCTTCATCTGAGAGCGGGTGACATCAGCGCCCATCGTGTCGGCATTATTGCCCTCTTT CGGGCAGAGTGTCGTCCAGCCATGACTGACGTCGTGGCGCGTCATGTCGCTATTATT ACCCTCGTCAGTATTGATCTATACGTCCAAACACATGGAAATATAAACTGTTGGAGG TCGCACTCTAACGTGGCCTTCGTTGGCATATATGGCTGCATGCCTACGTATCTTTTTT CTTTCTTCCTCGCAGCGTTTTAAACGACAAAGAACGATAAAATAGTCGAATTCCCTT CAAATTACATGAAATTGAAATAGTATCGTTGTGTTCGCATATATTTTTTGCACGGAT ATCATTTTTGTTGCACACATACAAAGCATCTGAGGATTATACTAAGGTCGTACTGCT TCTATATGCATTCATATGAGGATTGCAATCTGTACGTGACACACACACAGGATGTGA TGTTTGGTGGGACGGAGACGGTGGCGTTGGGCATAGAGTGGGCCATGGCGGAGCTA CTCAAGAGCCCCGAAGAGCTGAAACGAACGCAACAGGAACTGGCGAGCGTCGTCG GCCTCCACCGGAAAGTGGACGACAGTGACCTTGACAAGCTCCCCTACCTCAAGTGT GCCGTGAAGGAGATGCTCCGTCTCCACCCTCCCCTCCCCCTCCTCCAACACCAGGCT ACTCAGGACTGCGAGCTCGCCGGGTACTTCATCCCCGTCGGGACAAGGGTGTTCGTC AACGCGTGGGGCATCGGCCGGGACCGGGACGCGTGGAAGAGCCCCAACGCGTTCCG GCCGTCACGGTTCGCCCTGGGAGGCGACGCCGCGGCGTTCGACTTCCGAGGGAGCT GCTTCGAGCTTCTGCCGTTCGGGTCGGGGCGGCGGTCCTGCCCGGGCATGCAGCTGG GGCTCTACGTGCTGGAGCTGGCGGTGGCACAGCTGCTGCATTGCTTCGACTGGAGCC TGCCTGCCGGAACGAAGCCCGGTGACTTGGACATGGGCGATGTGTTTGGGCTCACTG CGCCCAAAGCAGTAAGGCTGATGGCTGTCCCAACTCCGCGCCTCACTTGCCCGCTCC TATAAGAAGCTTGCTTCTCTCCCGCGCGGCACTCTCGTTATAATTGAGATATTGTTCC TCGTTAATTGGCCTATGAACATGCAGCTGAAACATCTCAATTGTGCCTTTGTTATGCA ACTATTAAGCTTTTACTCCTTGATATATAAATCCAACCGCTTACAATAACGAAACAT TTGCCAGAGAACAACATGAGGAGCAAGTGCAGAACCTGTATATTCCCATGTTTGCAC CGAACTTACCATAAGAGTTGTTGAAATCACAAAAGATTAATGACCCTGGCGCAAAC TCTATATTAACACAAAAGATCTGGTACATGCATGCCACCAGTATGAAGATGACAAG ATTTCCGGGGAGTCAAGTCTGGGCCAATGGGCATAATTGGTTAATTTGTTTTGCAGC AGACCAGAGTCTTGGATGTTGTTGGTCATCTTTAAACATAATCAAATTCGCATCGGT TCCCAGTATCCCCTGGCTGATCAACGTTGCTTTTTCAACATCAAACAGTGATATCTTC CTCGTCCCCTGTCCAGGTGTAGCGATTGTCTTCCCACCTACAAAACAAGGTCTATAT ATACGGTAACAAGTTCCAGTGTTGGATTCTACATGACCTTGAAGTTGGCTGTGAACT GGTCCAGCAGCGTTTCTGATGTCGTAGAGATGCAATATCGGGTCACTACCGGCTGAT AGGATCAGGAAATTGTTCCATTTGTTCCATTCAACCGTGTTGACACCAGTAGAGTGC AGTGATTTGATGGTAAGAGCACAAGGCTCCGGCGACCTTGGATCGAGGACACATAT ACGTCCATCGACTCCACAGTCGGCAAGTCGTTCTTTTCCATCCCTGCAAAAATATTC AGGAACAACATATCGGTACTCTGAAGCACTGAAAAATACATGGCAATTCATTTTCGT AAAGCAAATCATTGTGTTGAAAATTATAATGCTCTAGAGTTGAAAATATTGTTATGA TATTCTATTTAGATTATTCCGACTCTCAATTTAAAGTTTGTTTGCAGCTACACTCAAT GCATAGTTAAATTCAGAAATACATGTGCACAAGATGGGTCAACAGAACATTGCTTCT ATATTTGCATGTTCTATAAACCATTCCTCCGTAAATTTCGCCAGTCACTAGCAGCAA ACTTCATCCTCAAGAAAGTTCCAGTCATTAAAAGATGACCAGTTTGGTATATAAGTC GGCGACGTTATGAACCAAGAGGTCGTTGTCTTCTATTGACAAGTCACTTGGTATGTC CTTGTAGAACTACACAAGAACCTTGATGCTATTGAGTGAATTCCAAGTTCATGAACA ATAGCAAGATTACAACAGTTGAGCTGGAAACTCATCAGCTACCGGCTTTCAGAAAT GTCATGTAGAATACGCTACAACCCACCTTGACTGCTACACACATTATTCATCCATTG CTTATTCCGTTATCCCCTTCTATGCAATTAAGGAGTGAATTTGAAGATGAGTGTCATT GACTCAGAAAGAAAAGACAAGAAAATTTAAGAGTCGGTCTTCGAAAATAACAGTGC TACAACATAAGATAGTATCCTCTACATTTGAATTTGTGAGAGCATCCTCTTTTTGTAA TGCAAGTTTTGGGTTTCGGGAGCCGCCTCATAGATCATAACAAGTTGATAACTAGTT TATTTTTCTTTAATGAACCGATTGAGTTGATGATATGCGATACTTATGATAAACACAT TATCGATCTATATTTTCTACCACAAATTGTAAATAAAGAATCAGGATTTCAAGAGTT CACTTTCATACTATCAGGAAAAAAAAACTAATTCTAAGATTTAAATATCTAAATCAT GAATTAAGACCGGAAATCTCCTTCAGAGAAGGTGGCATGGAAACCAATTCACCAAC GAAAACCAGACATATCTTAAATTGAAGAATGATGACTATTGTGCATCAAAGAGTTA AGTAATAGAAGGGTTACCCAAAACAAACGCCCCTGATGACTCCTGAATGGTGGCCG GTAATGTTCCGCTCTGCCACCAGCTCCCCTGCCGGCGTCAGCCTCGAAACACCAACA GAGGAGTCCTTTGATGCCGTGG SEQ ID No: 93 >Wheat_A0A077RPS5 CCTGGTTGTGTGGGGGTCACACTGCCTCATAACCAAGCAACCAGTGGTTG CTTCTCAGAAATGGATTATTTTATCGATGTGTAGAGTTGATAGAATGGTATAAGATC CGTCCACTACATCAACACATTGAAAGTACATAGAGGATGCACACAACCATTATACTC ACAAAGCTAAATTGAGACAAGAAAGGGCCATGAAGGAAAAGGACAAACCATTGAC CTCATGGTTACAACCACCCACCCATGTTCATGTCATGTCTAAACTATTCGATCCACA ACCAAAGAAAGATGAAATGCAAGTCGAGCTGATGAAAATGTCCGCACTCAAAACCT TTACTCATCACCAATGAAGACATGAACGTCTAAAACTCGGAAATGATTACTCCAAGG CCATAGCCTGAACCAGAGATGGAACCCGGTACCGAGATAATACCCGAAAGCACGGG GTGGTGTGGGGGGGNNNNNNNNNNNNNNNNGGGGGGGGGGGGGAGGGGGGTTCG CACCTCCATTTTTCTGTTGGTATGGGTTTCGTGGGAAGAATAAATGAACTTTACAATC CACTCAATGAAACCTCTTTTAAAGATTTCTTTCACGCAGAATAAGGCAAAAACCATA AGAAGTTTAAATATCAACCTAATCTTACCTGTGTTTTATTGTTAATTTTTTTTGAACA GTTTTAATGTTAATTTGAGTATGTATTTTTTTATTCATAAGTTTTCCTTTAATATAAAT CAAACAAACAATTCTGCAGAACTCACTATGTCCACAATTTTGTTGCCCATACAATCC TATCCGTGTTTTAAAAATTCCGCAAATTATAGAGGCCCTTTAAAGGGGTATGTGCGA CAATTCCCTGCTGCCACCGAATGCTAGAATGATCCAGAGAATCCCAGCAAACACAG TAGATGCCACAAACACCACCATCCCCTACAACGTCACCCCATGAGGTTGTTGAGATC TGATTTCCGCGTGCAGCCGTGGCATCAATCCAATGGCACAGAGCCCCGTTGAAACCT AAGTTTAATGTCCACATGTTCACGTGCTATAAAACAATTAACATACACTGCTTGTGA CAGCTTACTAATTGAAAGGTGCTTAGCTAGAAATCCTCAATACACTGCTTGCGTTAT AGCTTACTAATTTAAGTCGCTTAGCTTGAAATCCCCAATTATTGGGAGCACTACACA AGCTATATATGCTGACTGGACATATATATACCCTCCCCCGTACCACCAACTCCATTT AAAAAAAAATGCTAACAACTCCACCCAAGAAACTAAAAAAAACTTAAAAGAACCCT CAACTACTCATCTAAGGCATCAAAGAATATATCATGCACACCTTCTTTTATGAATTA TAAATTGCATTATTATTTTGTTTTAAAAAGTCATAGATTTAGATGTTTTAACATATCT CACTTAGGTTATTTTTATGAAATCAACAAAAGCATCTGTTGATTATTCTTGGTCCAGG CTCATGTGAGGGTAAGGCTCCCAAGCACGGAAATAGCCAATTTAAGGTTCTTAAGGT TTATCAAGAAAAATATTATTTTCAATAGGTACTTTGCGTAAATACAGCAGGAGAATA CTACTTTATGTTGGATCTAGTGATATTGATTTGATAGCGTGCATGTTGATATTTTTCT TGATAACCAGAGTCAAACTTAAAAATCAAGTAAGCCTTGTATAAATCCATCTGGAG GGAGTATTAATTATTTGATGCAAAAACAGAAACACTAGTGATAGTTCACGTGTGATG CGCAGGGCGTGCAAGTGGAATAAAAGAAAACACCTCACCCACAAGAAAAAAGAAA AGAAATCCTTTTCTAAAAAAATAAAAAAGAAAAGGAAATAGTCGGCCTCGTGTGCA ATTGCTATCATGCGGTGTGACGCTACTGTTTTTCAACTACAGTAGCACAGTATATAT AAAGGCCCCATGCATCCACAGGGATTACAGCGGAGTTTCTTGTTTGAAGCTAGTGCT CGATCGTTCTTATTGCCAATGGCGACCTTTGCAAAGATCGCCATGGAGCTCCTCGCG GATCCACTGATGTGGCTGTTCCTCGCCTCGCTGGCCTTGGTAGCCATGCAGAGGCGG CGGCTGGGCAGCGCGCCGTTTCCTCCGGGCCCCAAGCCGCTGCCGGTCATCGGCAAC ATGACGCTGGTGGACCAGCTGACCCACCGCGGCCTGGCTGCGTTAGCGAAACAGTT CGGCGGGCTGCTGCACCTTCGCTTCGGCTGGCTCCACGTCTTGGCGGTGTCGACGCC CGAGTACGCGCGCGAGGTGCTGCACGCGCAGGACGGCGTCTTCTCGAACCGCCCGG CGACCATCGCCGTGGTCTACCTCACCTACGGCCGCTCCGACATGGCGTTCGCGCACA ATGGCGCCTACTGGCGGCAGATGCGCAAGCTCTGCGTCACAAAGATCTTCAGCCGC CGCCGCGCGGAGACGTGGCTCGCCGTGCGCGAAGGGTACGGGGCGCTAGCCCGCGA AGTCGGCCGGCGCAGCGGCGAGGCCGTCAACCTCGGCGAGCTCATCTTCAACCTCA CCGTCAGTGTCATCTTCCGCGCCGCCTTCAGCACCTGCGACGAGGACGGGCTCATCG AGTTCATCGCCATCCTCCAGGAGTTCTCCAGGCTCCTAGGATTGTTCCACATCGGTG ACTTCTTCCCGTGGCTCGCCTGGGTGGGCCGTCGTGGCTTCAACCGCCGGCTTAGCA CGGCGCGCGGCGCTCTCGACAGGTTTATCGACAAGATCGTCGACGAGCACATGAGG AGGGGCAAGGACCCGGCAGACCCCGACGCCGACTTGGTAGATGGCCTGCTCGGCTT CCTCGCTGACGCAAACCCAGTCAGCGGCAAGCGCAGAGAGGACGCTCTCCGCTTCA CGCGGGATAACGTCAAAGCTATGATCATGGTACGCGAGTAATTTGCTGTACTGGTAT ACTCTCCCTGTTCACACATCTCAAGAACTTCACTTGGTACATTTTTTTTATTACTGTGT ACTACTAATACATTTTTTTTTGCGAGGGAGTACTACTAATACTAATGAACTAAAAGC ATGGCAAGTATTTTGGAACCAAGGGAGTACAATTTTTTTAAGATAGCTAACGTCTAT CCATCATATGAAATGTTAAAAAGAAATTCCACACCCACAAAAAAAATCCACACATA TTAAAAAAAGTTCCATTTGTTCAGTTTATCATTCTACTGGTATATGACTTCCTGAAAG AGAAGGAATATTATTTCCTACAATATATTGTGGTGACGTGGCTATCTTCATACGGCA TATAGGACATGTTATTTGGTGGACCGGAGACGGTGGGGTCCACCACCGAGTGGGCG ATGGCAGAGATGATGCGTAGCCCAGATGAGCTCGAGCGGCTGCAGCAGGAGCTCGC CGATGTGGTGGGGCTCGACCGGGCTGTTGAAGAATCCGACCTCGACAAGCTCCCTTT CCTTAGGTGCGTCGTCAAGGAGGCGCTTCGCATGCACCCGCCCATCCCGGTGCTCCT CCACGAGGCCGCCAAGGATTGTGTTGTTGGCGGCTACTCCATACCGAGAGGCTCCCG CGTGTTGGTCATTGCTTGGGCGATCAACCGCGACTGCGGGGCCTGGAAGGATGGCG ACACATTTCGACCAGCACGGTTTATACCCGGCGAGGGGGAGGCCGCCGGGCTAGAC CTCAAGGGAAGCTGCTACGAGTTCTTGCCGTTTGGGTCTGGCAGGCGCTCATGCCCT GCGCAGGGGCTCGGCCAACATGCGGTTGAGTTCGCAGTCGCGCAGCTGGCGCATGG TTTCAATTGGAAGCTGCCTGACGGCATGAAGCCAGCAGAGCTTGACATGGGCGACA TTTTTGGCCTCACCGCGTCACGCTCCACGCGGCTCTACGCCGTGCCCACGCCCCGGC TCACCTGCCCCGTGTAATGTGATAATTATTGGACAAGGCGTGCAGTGCCCACAGAGA CGTAATATCATATTGCCAATAATGCTACACCTACAAACAACCTATAAATGTTTACTT AACATTTCAAACTATAATTCTCTGCCCCCTGAATTTAGCAAAGTTTGCCCCGTTATCA CGTTTTTTGTATGTGACAAGCATAACATATCCGACTATTGTCATTGTGAACCATCATC GGAGCTTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAGAGAGAGAGAGNNNNNNNNNNGAGAGAGAGAGAGAGAGAGAGAGAGAGAGA GAGAGAATCATATTTGGTCTTACAATAAATGCTGGTCTTCTTGTTTATTATTTTGCAA TGTTTGACTTCGGCTAAAAGATATAATCTTTACGTATCAAGACAAAATATACCATTC ATTAGTGTAGATATGCCTTTCTCATTTAGCATGTAAGTGGCATTGCGCACAAGTATA AGAGCTGGCTAAAGTTGGGAATGTGATATGGAGGAGTTCAAGTCATACCGGAACCT AAAATCTCCTCGACATAGATTCTCAAAGAAAAATCTTCTCCACAGACAAAATTAACA TGTGAGCGAGCTATAAACCTGCTATTGTATTTACTCTGATACGCTGATGACTTCGACT TGGGGAGCATGACCGCGACCACCACACAATGCCCAAGACAAAACTGGTCGATTAGC CAACTGGGCGTCCACATCTCCTAGGCGTGCCACATGAGCGAGCTCGTCAGGTATATA TACATATACCATACCACACTGTCATTTTGGAGCATCCCCCACCACCCACTGGTCCAG TAAATCCAGCCAGTTAAGCCTCCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCAGTGCA CTGAGTGCTGGTCCAGAAAAAGAAAATGTGCTTCGAGTTCAGCTTGTGCTTCGGCGG CTTTAGAGATGACTACAACGGCGATCGGTCCAACCACAACAAGTCCGGGGACTGTC AGCGACGCCGTAGAGGGAACAACAATAGGAACGACTACCATGCATGTAGTAATTTT TTTCACGAATACATGTAGAGCGTATCAACGCATGTGCATGGCTGTCGTTAGCTCGTG TTGTAAGGTGTTGGGTTAAGTCTCGCAACGAACACATCCCTCGTGTCTAGTTGCCAC TGTAAGTTTGGAACCCTGAACAGACCGCTGGTGTTAAGCCGGAGGAAGGAGAGAAT GAGGCCAAGTCATCATGCCCCTTATGCCATGGGCGACACACGTGCTATAATGGGCG GGACAAAGGGTCGCGATCTCGCGATTGTGAGCTAACTCCAAAAACCCGTCCTCGGTT CGGATTGCAGGCTGCAACTCGCCTGCATGAAGCAGGAATCGCTAGTAATTGCCGGTC GGCCATACGGCGATGAATCCGTTCCCGGGCCTTGTACACGCCGCCCGTCACACTATA TGAGCTGGTCATGTTTGAAGCCATTACCCTTAACTGTAGGGAAGGGATGCCTAGTTT GCTTCCTTCTATTAATGCATTGATATGCTCTGCGTATTCGCAAAAAAAAAAAACTAA AAAAAAACTACTATGCCGACGGCGATAGAAGGCATCCTACCACAACAAACAGCCCA CCGCCGTAGACGAGGCCGGGCACAAGGCCTATCATGACGGCGCTACTGGCCACCCG GCCGTTTCGCCGCCTTCAAGACACCAAAGCTTCCCAGCGTTCCCGGGCCGCACAACA CGGCGCACCTCCAAGAACCAGCTCCAACACTGCCCAACTGCCACTACCACGACCGC TCTTGGCAGGTAGTCCAGATTAGCTATGCGGCTATACACCACTGTAAGTAGGATTCG CTAGCATGGGCATGGCAGTCCAGTTCATCAATCGCTCCCTCTCCCTAAATACTGCAT ATGCTTCTGTTCTATCCGTAGCTCTGTTTTTCTCCTCTGTTTTTTCTCTCTTTTCGAATT TTGATCAAGTGGAAGTGCAGTGATGTATG SEQ ID No: 94 >Wheat_W5A2I1 CGGGATAGGTGGCCCCACCCGGTGGACCCGCGGGACCCTTCTGGTGGTCT CGGTACAATACCGATGACCCCCGAAACTTTCTCGGTGGCCGAAACTGGACTTCCTAT ATATAAATATTTACCTCCGGACCACTCCGGAACTCCTCGTGACATCCGGGATCTCAT CCGGGACTCCGAAGAACATTCGGGTTACCGCATACTATTATCTCTACAACCCTAGCG TCACCGAACCTTAAGTGTGTAGACCCTATGGTTTCGGGAACCATGCAGACATGACCG AGACGACTCTCCGGCCAATAACCAACAACGGGATCTGGATACCCATGTTGGCTCCC ACATGTTCCACGATGATCTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNACTAGTGCACCTATACAATTTACCATTGTATTGGGTGTGTTGGG GACACAAGAGACTCTTTGTTATTTGGCCGCAGGGTTGTTTGAGAGAGACCATCTTCA TCCTACGCCTCCCACGGATTGATAAACCTTGGGTCATCCACTTGAGGGAAATTTTCT ATTGTCATAAAAAAACTCTATGCTTGGAGGCCCAACACGAGTCTACAAGAAGAAGG TTGTGTAGTAGACATCAGGAGGCGCGATGATAGAACGTCTCTACTGTGTCTGAGCCA CCCCGACGATGAGTGCTTGACCGTCGCGCGTCAACATCATCCTCGGACCGACTATGA TTTGCATGCATGTAGCCTATGCGGCACCTGTGGTGGCTACAATGAGGCCGAGACACG CCATGCCTGTCGCGAGAAGGCGAAGGCGGTGTTAGTGACGTCCCGATCCAACGACA ATCCGGTCATCCGCGTCGTCCAGCAGCGGGCCCTCACCTCCAAGGAATCAAATGCGC GCTGCCGCCGTCAAGTCAACACCAAGGTCCTCGCGGATGGCATCAATGATTTGGTCC GCGCCACCGAGAAGGTCGCGCATGATGCTCAGCTCACCTATGTCGTCCCAGGCCACC CCCGAACTCCGGCAACCCCACGCAGGGCACCTCCACAGATTCCTCGTCCTCCGACTA TGAGATCTGTGGCGTTCCAGCCATCCCTACATTTTCTTTAGCCGCTACTACCGTGACA AAGACGACAAGGGCAAGGGCAGTCGTCGGTGTGAAACTTTCATTGTCCTAGTCTAGT TTATTGTTGTGTTTTGTTGTCATGTGTTCCAGTGTTGAACAATGTCCTATGTTAAACTT TGTTCCTATGTGCATGCTATGTACATATATGATGATCGAGGTTGCATTTATTTGTATG AATTTGAGGATTGAAAAATGAGGGATTCGACTACCCGAACAAATGAAGGTTGAGTC CATGCTACCGGGGACACGTCTGGACAAATGAGGCGCCAAGATAGCCCGTCCCATTG TGGTTGAAGATGATCTTACAATCCGTAACTTCTCTCCTTATGTTTAGCAATTTTGAAA AAGTTTACACTTTTGATTATCGAAAGTCCTACATCCACGGGCTCTTATGAAGCCCCT ACATAAACTTCCTTATTAACTCTATCTCCCCCCCCCCCNNNNNNNNNNNNNCACCCT AATTTAACGAGGGTGGGCCCTAGCCCCTGATCCGGGTCCAATTAATTACTTTCACGT CAATTTTTATGTAAAATTCTCACGTAAATTTTTGTAGGTGTAACATTATTCTTTGACT ATTCACTTGTGAGACCTAGGGGGAGGGGCTCGAAAGTTGAACAAATATATAGTATC AAGTGACATAGGATTAAAAACTAAAAGAAAAAACTAAAAAAATATTACGCCAGTCT CCATGCAAGATCTCACGAATATAATATCGACTAAGACATAACAAAGTCTTAGTCGAC TGAAATTTAGCAACACTGATGAATATATAAACCATGCATCCACACGGATAGCTGTGG AGGGCTCTTGCAGTATTACTATTATCGCTATCCAGCTCGTGAGTCGTGGCTATCGTCA ATGGCGGCCTATGCAAAGGTCGGCACGGAGTTTCTCAAGGATCCACTGATCTGGTTG TTCCTCGCCTCGCTGGCTTTCGTCATTCTGCAGAGGCGGCGGCTGGGCAGCGCGCCA TTTCCTCCGGGCCCGAAGCCGCTGCCGGTCATCGGCAACATGGCGTTGGTGGACCAG CTGACACACCGCGGCCTAGCGGCGCTAGCGAAGCAGTACGGCGGGCTGCTGCACCT TCGCCTCGGCAGGCTCCACGTCTACGCGGTGTCGACGCCGGAGTACGCGCGCGAGG TGCTGCACGTGCAGGACGCCGCCCTCTCGAACCGCCCGGCCACCATCGCCGTCGTCT ACCTCACCTACGGCCGCTCCGACATGGCGTTCGCGCACAACGGCGCCTACTGGCGGC AGATGCGCAAGCTCTGCGTCACCAAGATCTTCAGCCGACGCCGCGCCGAGACGTGG CTCGCTGTGCGCGAGGGGTACGGGGCGCTGGCCTGCGCCGTTAGCAGGCGCTGTGG CGAGGCCGTCAACCTCGGCGAGCTCATCTTCAACCTCACCGTCAGTGTCATCTTCCG CGCCGCCTTCAGCACCCGCGACGAGGATGGGCTGGATGAGTTCATCGCCATTCTCCA GGAGTTCTCAAGCCTCCTAGGATTGTTCCACATCGGTGACTTCTTCCCGTGGCTCGGC TGGGTGGGCCGGCGGGGCTTCAACCGCCGCCTCCGCACGGCGCGCGGCGCTCTCGA CAAGTTTATCGACAGGATCATCGACGAGCACATGAAGAGGGGAAAGAACGCCGCCG ACCCCGAAGCTGACTTGGTAGACGGCCTGCTCGCGTTTCTCGCCGAGGCAAACCCAA TCAGCGGGAAGCACAGAGAGGACGCCCTCCGCTTCACCCGCGATAACGCCAAGGCC ATGATTATGGTACGTAACTGGTACTGTATTTACCATCTTACAGTCTTTACTCTTTACT GTATATCCATGGCGGTGTGCTCCTGCTCCACACTAGTTCTACTGACGGACGGCTTGA TCTGCAGAGTAGTATGACCAATATCCTACGACAGAAACCTCGTACATGTAGGCTAGC ACCTCTCTTTCTTTTTGACGTGTTTGCTATTTGTAATTGTAAGTTGCTTGATAATGACA AAAACGAGATCGGTCGATTTTCCTTAATGAAGAAAGGCGAGGCGGCGCCGAGCTCC AAGGCGGAGAGGGGGGCGACGAGGCCAGTGTCCTGAGTAAGAGTAAGAGCATCTA CAGCCGTACGCCTCAAATCATCCCACATAAGCCCGCGGACACGCCCGGCCAGTGAC CGGAAGGGAGAGAGAAGAAAAAACGTGACCCAATCGGATCCCTCGTACCATCCCTA TATGCCCGGGCTGTCCGCGAACCCTCATATCCATCTCAAATATGGGGAGGATATGAG GGCTCGCGGACGCGCCCGAGCGCGTTCGGGCATTCTGCCACGTAGGACTCGGCCCC ACACCAGACCACCTTTTTTTCTTTATTCATTCTTTTATTTCTCTCTCTTCATCTCCACC GATCACGTGCAAGTGACCGGAGAAGAAAAATAAGGAGTGTGGCTGCGCGGACGAA TAAATGGGGGCTCAAAACGGACACGCCCGGCCACTGGCCGGACATGTCCACGGGTG TTTAAGGGGTCATATTTGCTATGTCCAGCTGTAGATACTCTCAGAAAAAGCCATTAA CTAGCGGGAGACGGGGATGCAGCGAGTGGGAGCCTTGACGGTTGGTGGTGTGGAGT TGGCACCCGGGATCAGAGAAGAAGGGTGGTGGAGGGTTAGAGGGGTAGCAGGGGT GGCTTGGGCACGGAGGCGAGGCGCGTGAGGCAGTGGCGCCAGCTGTAGGTGACGAG GGCTGATGGTCTGGCGGATGTCAGACGGGCGGCTCGGCGCAAGGAGGAAGGGAAG GGAGTGCTAAAAAATGCACGATCCCTTTTTTCAACTCACTGGTCCTTTTCTTTCTATC CTCGTTATTTTTAGTTTCTTTTTTTACTTTTGTATTTCGGTCAATTGACTTTCTACTACG TGGTTTTGATACCTAATTATTATCTATTATTTAGGTAATATACTCTGGCTTGGATGGT GGTTTTTTGCTTGTTGCTGATTTCTTGTTTTATTATAATTATTTTCCCTCTTATTGTTTT TGTTTTTATTTTTGGTTTGTTGCTAGTTTCATCAAGTGCATATACGTATTTAGATGTCC TTTTGTGTCTTTTCTTCACAAAAAAGTGTATATACGTATTTTAGTGTTTTTTACATTTC AAAGTAACGGAGTCGCAGTAGACATGTACCTTTGATCTTTAGAGTATAAGTATTAAT AGTATTACGACAAATACAAATACACTTGTTCACTGAATGGTTTATGGTGAAAGGTGA GATTCATGTAGGTTGTATTTTCATTGTGTTTTTGGCGCAAGATCTTTGTCTAGAATAA GTAACCGTGCATTACAATTGTTTTCACATGCTATGAAACATGAAAAACATAGCAAGC AATGCTGTAACTGAGGTTTGAAATCACATAAATTTGGTTTTTATTTGATAGAGACGT GTGTCATTGTTTGTATGGTGCATTTTTTTATTTATACTGAGTTGGAAATCGGTCAACA TGATAGTGCCATTCGTCGCTGTTTGTATGGTGCAAAATTTTGATTTGTTTTTTGTAGC AAAAATGTTGTACGGAACCATGGTTCAGCCGAAGCTACGCTCGACACCATTGATTTT TAGGCACTATTCATAAGGATCCATGCATGGTTGATTAAAAAATACAGCTGACATGCA TGTCTACTCATGAGGATCCATGCATGGTTGATTAAAAAATGCAGTTGACATGCATGT CACAGATCCACATGTAGTAGGATGTTAAATCGTATGACATAGACCATAGGTTCGATT GAACCATGGTCCTGAATCATGTCTCTCTTTTTGTAGCTTGTCCTTCGTGGTACCTGCT ATCGTAGCCATTCATATATGCTCAGTTCCATGTGGATGTGTGCATCGATGGAAAATT AGCAACTGGCGTTAGCTCTCAAATCTTAATCTCCTGCCGCTAGGACTAGTAGGGNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCCCCACCCACAGACTGAGACG TAGTGCAGACCTCTCTCTCTTTTTGCATGCAGCGCATCTTTCTCTCATAAACTTTACA TGCAACTCTCTCTTTTTTTCTCTCTTTCGGTAAAGTCTGCTCTTTAAAAATGTCAAATA AAAATCCTAAAAATCACTTCCTTGAAAAAGAAATCACTATTACTCAATGCACATGGG ACAGAGGGGTGGAGATAAAAGATTCTCCATGCAAACCCCTCTCTTTCTCCCGGTTGG ACAAAGATTCCTTCATGGACCCGTTCTCTTCTCTCGCCTAGCACATTTAGTGAGATGG AGCTAGGAAGGAACTTTGCGAATTTTGATTGGTACCAATTGAAAACCAATTTAATGG TAAAAAATAGTCACTCTCTACATAAGTATGTATAATCAAAGGCTAATATAGGTTAAT ATGCACAACTCCTTGCCACTGAAGACATGAATAATTTTGTAATGGAAATAAAATTCT TCAAGGTGCCCTTTAGAATAAAGGAACCGTGGAGAATAAGAAAGTGAGGCTTGCAA TCATAGGATACACAAATATGGGATTTGTACATTTTTTATTATTAGATTGCATTAAAG AAAATTTATGTATGACTTGAACTTTTGCTACAAATTTGGGAGGAAATTAAGTCTGAG TTCCAGTCTCGTGTCAAACTTCTTTAGAAAGTTCAAATGTGTCTTCTTTGTTTTTGTCT CTTAAATATAACACCTAATCTCAAAGTCCATGTATCTTGTGCATTTTTTGAAAAGATG TATCTTTTGTGCGCGCATCTAAATATGTCTTCTCAACAACTCGTATTTCTCAGATGAA AAAATAGCCAAGTAAATCATTGTGTGTTTTTTTGTTCTTACCTTGTCAGATTCATGTG TTTAAGGGAAAGAACCCAAAACATTAACAATAGTTAAAATAACTTATCGAGTATGTT AAATCCAAACGCGGTTTTGGGTGGGAGAGAGAGAGAGACTACCTACCATCAACATC ACCGAATTCCTTTAGCAATAAAGAATTATTCCTATATATAGTACTCCCTCTGTTTTAA AATATAGTGCGTCCGCGCTTTCTGATGTTCAACTTTAATCATAAATTTAATCAATGAG ACCGACTATGGCGGGAGCAAAAAATATATACTCCCTCCGTCCGAAAAAGCTTGTCC CAAGCTTATCTCTCAAATGGATGTATCTAGCACTAATTTGATGCTAGATACATCCATT TGAGGGACAAGTTTTTTCGGACGGAGGGAGTAATTGAAAATTTCTTTTGAATACGAA TTCATTGGTATAACTTTTGCTCCCAACACAGTTGGTCTCGTTGGTTAAATTTATAATC AAAGTTGAAGCACAGGAACCGAGGACGCACTATATTTTGGAACGGAGAAAGTATGT GGTAACTTGCATGTGGCTATCTACACAGGACATGTTGTTTGGTGGGCCAGAGACAGT GGGGTCCATGACCGAGTGGGCGATGGCGGAGATGATGCGTAGCCCAGACGACCTAC GGCGACTGCAGCGGGAGCTCGCCAATGTGGTGGGGCTCCACCGTACCGTGGATGAG ACCGACCTCGACAAGCTCCCTTTCCTCAGATGCGTCGTCAAGGAGGCGCTCCGCATG CACCCACCCATCCCACTACTCCTCCACGAGGCTGCTAAAGATTGCTTTGTCGGTGGC TACTCTGTGCCCAAAGGCTCCCGCGTGTTGGTGAATGCTTGGGCGATCAACCGTGAC CCCGGGGCCTGGAAGGACGGCGACACGTTCCGACCTTCGCGGTTCATGCCCGGCGA GGGAGAGGCCGCCGAGCTGGACCTCAACGGCGGCTGCTACGAGTTCTTGCCGTTTG GGTCCGGCCGGCGCTCGTGCCCTGCGCAGGGGCTTGGCCAACATGCGGTGGAGTTC GCTGTCGCGCAGCTCGCGCACGGATTCAACTGGGAGCTGCCCGATGGCATGAAGCC CGCGGAGCTTGACATGGGCGACATCTTTGGCCTCACCGCATTACGTGCCACGCGGCT CTACGCCGTGCCCACACCACGCCTCACTTGCCCCATGTAAGTATCGCACCAGACTTG CTCATGGAGTGCCTTGTAACCGTTGGTCCGTTCATTGTGTACCCCGACCGGCTTGGTT TGTTTTGGACTTGATCTCCGAGTCCTAATTCGCAAGAAGAGACTTCCTATCAATAAA GATCATGGTCATAGATGTGCGTTCATGAGCTATCTCAATATTCAAATTGCTCATGAT ATTCGCGGGGGCGTGCGTGTGCGTGTGCGTGTGCGTGTGTGTGTGTGAGAGAGAGA GAGAGAGAGAGATTTTACATCATATCAAAAGGATGTGCTTTTCAGAACCATATTGGT ATATTATAGTTGTTGATATTCTGATCTATGATATGGAATTTTATAATGTTTGAATTAT AATAGAAAAAAAACATGCTTTATGTTTAGAAACCGGCGAGTGCCATTTAGGGCCAG TTATTTTGGAATAATACCATTTTTTGGGTAAAAAACAAATTACCGAATTCCTCCCCA ATCCTAGCCCAATAGACTCCGCACCATGCCCATCCTAAGATTCGCTACGCTCCGTGA TCATTACTCCTTCCAACTCCAAAATGAAGTCTTATAAGTTTTGTCTAAAGTCAAATGG TGCAAAGTTTGATCGATTTTTTAACATAAGTTATAGGTGTTCTTTTTGGAGCCGAAAG GAGTTCACCACAACCCATTATGCTCTTGAGCATACTCTCTTCCCCCTAGGTTCTTAAA TAGTTTACATGCATCTACTTGTATAGGCCTAAGTCCGTAAAAAAAGTACTTGTATGC AACTCCAATGATGTACATCAAAATGAACACCTCAAATGTCCGCGGTCAGCGGAGTT GGTCCTTCAACCGTATGCATCAAATCCGGACAGCGGAGTGAGCCAGACGAACCTAA AGGACAAAATACATGAGTTGGGAAGGACATGTGGTCCAACTGATAGTGGTTCAAAT GGATTATCCGAACTCTCCTAAAGCTCCCTCAGGTTTGGTTCAGGTTTGTAGGAATTC AGATGTCCAACCTAGTCCGCAGACGTTTGCTGAACTGCATTGGAGGGCAAAAAGTG TCTGTACCGCGTGGTTCAAACGTTCAAGGGTGATTTGGTGCACATCGTTTCCAAACT AGGTTCAGAGCCAGCTCTTTTTAGTTTACTTTGCAACTTATGGTCAAAATAAGCTAA AGCTAGACATAACTTGAAATTTCTCTCCAGCTTAATTTCTAAGCCCGTCCAAATAAT AGTTGGTAGAAAAAAACTACAAGAGAAGTGCTTCTAGAGCTTCTCCGTTAGGGCTG GAATTCGAGCCGAGTCGAGCCAGCTCGGCTCGACTTGCTAAAGCTCGTTTCGTTAAC GAGCTAGCTCGACTCGACTCGTTACTATAACGAGCTCAAATCCAAGATTGGCTCGAC TCATATAACTCGCGAGCTGGCTCGTTTAGCTTGTTAAGCTCGTTAAGGATATGAACA TAAAACCTTACGAATATGAAAAAAAATATTACTTGAGAATGTATAATGTACATATTA AATATGTACAATGTTCACAAAAAATTGTAAGCATGTATGAGCATCACTTACAATTGT TAGTATCGTGCAGGCGCAGCGCCGACGCCGTCACAATTTATAGGATAAAGAAACAA GGAAGACATGAGGGAAATCGACCGCCTATAACTTCGCTAGGAATAGAAATGGAATG AGAGAAATCTTCGTGTGCGATGTGTGAGTCTTGTGGGCAGTTGGGCCTTGTGTTGTG CGCCTGGGACACCGAGAGCTTGGCTGATCTTTTGTACCGAGCCTAAACGAGTTACAC GAGTACTCGTGAGATCGTCTCGTTTAACTTGGTCTGTAAATGATCTTAAACTAGAGC TCGGCTCGACTCGTTATTCTTCGAGTTCGAGTCGATTCGAGCCGAGTCATGAGCTAC TCGTTTAGCTCGCGAGCTTCGAGCTTTTCTTCCAGCCCTATTCTCCGTAATTCAAACC CTTCCATAAAAAAAAGATAATGTTTCCCTCTTTTTAGGAAAAAAATGCTACCGCATA ACTCTTCGTGCTCGAATAGAAAACCACATGCGCAATTGCTTCCCCTTTGCTCCAACA CCAACTACTACTACGCCTAACTCCACTTAATTAACCCCAAGGGACAATTGAAGTACT TTCTAGTTTGATGTGGAAGTATTGAGTGTTCAAGCCCTAAGGAGCAAATGGATAAGC CTCATATTCTATCAAGTTATATATGGTTGTGTGAATTTCTTTGGTACTCTACTCGTTTT AATAAATGGTTGTCTA SEQ ID No: 95 >Wheat_W5B6W3 TTAAATTATCCTTTACTAACGAACATATACGTGATAGCATTGAATGATGTC TTTGAAATCAGAGTTTGCGGACGGGTCATTTGTCCGCGGACAGATGCCGATGGAAAT TTTACGGGTCAGCCTTGGAGATGCTTTTATACTACTACTCCGATACACGGAAATCTC AGGATTTGTTACATTATCAGATTATTAATTTTTTTGCGAATGTCATTATCTGGAAGTT GAACAATCTGTTGGAGGTTGACGGAAGAACGTGAAGAATCCACGCAGCTCGGGCGC CGTGTATATGCGACGAAGACACACGAATTCCAATGACTTTGTTAATTTCAACATCAC TGGTTCGCCTTGTCTGATACGTTCTCACAGGTCGGTTTGCTGTCACGGACCGGGGGA GTCTGAACGAGTCCTGTGTACGTGGTACAACCAGTAACTGTCTTCCGCCAACATTCA AGGATTGGAGCGAAGCTAGAAACTACAAGAGGTTCCGTTGACTAACTCAGTGATCT CCTGAAAAGATCACTAATAAGGTTTTACTGTCACCTTACAATTCTATCGAACCCATG TATTTGTAACAGATTTTCTTTTTTTTGCAAGGGATATTGTGACAGTTTCTTTACTGGT AATCGACGGGGGAAGCCCGTTGTTTTCCCTCCTCATTTTCTCATTGTGCTTTCGAAAT CACGTGAATCAAATAAGATGCCTATGGGTATACTTTTCTTTTCTTTTCTTCAGATTTT CTTATCGAGGTGCAGAATTGTAAGGTGACGGTAAAACCTTATTGTTATTTTCTCAGG AGATTACTGAGTGATATTGATGGAAAAAAACAACAACATGCTCCTGTAGCCGGTCC ACCGAAAGCACTTTTCACCCTTAATTTTGTTTCCCACCCTCAAGCAAACAGTGAGAT TTAGAAAACTCGACTTTTTTATTTATTTGTGGAAAAAAGAGAGCATCCCGTACGGTT TCAAGTAACTATATAATGTCTTTCTTACAAGGAAAATGATTGATACCAACCAGCTGA AAAACAATTTGGCGCCGGTCGTCTCCTTCAGTTGCCACGCGTCCGCTTCGCTTACCG CAACCTTATCTCTTTCTTCTTGCCTCTTCTTCCCCGCTGGCATGCACAACCTCCTCTTG CTCCAACCGCGATTTGTGGCTCCCATCACCGGTCATCTTCCCTGATGTATGCTCCCTC ACCCGGATTCGTGAGTCAGATTCACGGCCTCTATTGCCGGCCATCTCCCTCACCATG AGCACCCGCCCCGCCAATGTTGCAGGTGTGTCACTTGCCGCCAGACCAAATCCACAA GCTACATCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCACATGATTTTTCCTACC GACGGATTTCTTCTTCTTCTAAAAAAGCCAAATATGCTTTTTCCAACAAGTGTCTTGT TGCAATGACAATTATGTCATCGAGCAGGCGCGATGAGATTTTCTACAACAAGATATC TGTTACAAAGGTTTCTACAACATGAATTCTGTTGTAAAGGATTCTGCAACATTAACT GTGTTGCAACCGTGAAGGGCGCCGCTTGACCGCATCAGATCTGACAGCTCGCGACCT GACCGATCTTTTCGGAATATCAATCTGCCGACGCATGGCACGCCCCTTCATACCTCT CCTGCACTAGAAGGGGTAAAACAGAATAGTACACGCATATCATCCCAGTCCGGTGC CAGGCCAACCTCTCTCGGAGGGAAGGCCTTATTCGTCTCGGAGGGGGGCTAACAAA GACCGGGGCAACGGTTGTTCCCATTACCATTTGAATTTTCTTGTGCCATGCATCCTCG AGCCTACTCCTTTCCCTACTTCATTCCAGTTAGCAAATCTCACTATATAAATCCGGCT CCTTCCACTTTCCTCCTCAGCTCACTCCACGAGCGTTATCAACATATAGGTTCCCCCA CAATTGAATAACCCAACAAAACAAAAAAGCTAGAGCTTCCAGCAGTTTGAGTATCC GTCAATGGTGGGCTTGGCCAAGATCGCCATGGACTGGCTCCAAGAGCCACTGAGCT GGCTCTTCGTAGCCTCGTTCGTCTTCGTGGTGCTGCAGCGGCATCGGCAGCGGCTGC GTGGCAAGGCGCCACCGCTGCCTCCGGGGCCGTCTCCGCTGCCGATCGTCGGCAAC ATGTTTATGATGGATCAGCTGACCCACCGGGGCCTGGCGGCTCTGGCTAGGCAGTAC GGCGGCATTCTCCACCTCCGCCTCGGCCAGGTCCACGCCGTCGTCCTGTCGACGCCG GAGTACGCCCAGGAGGTGCTGCAGGCGCAGGACGTCGCCTTCTCGAACCGGCCAGC TACCGTCGCCGCCATCTACCTCACCTACGACCGCGCCGACATGGCGTTCGCGCACTA CGGGCCCTTCTGGCGCCAGATGCGCAAGCTGTGCGTGATGAAGCTCTTCAGCCGGCG CCGTGCGGGGACCTGGCTCGCCGTGCGCGACGAGTCCGCCGCGCTCGTCCGCGCCGT GGCCCGGCGGAGCGGCGAGTCCGTGAACCTCGGAGAGCTCATCTTCAACCTCACCA AGAACGTCACCTTCCGCGCCGCGTTCGGCGCTGACGCCGCCGGCGACGCCGGGAAA CGGGACGAGTTCATCGCCATCATGCAGGAGTTCTCCCAGCTTTTCGGCGGGTCCAGC ATCGGCGACTTTATCCCGTGGCTCGGCTGGGTGGACCAGGGCCTCAACGTGCGCGCC CGCACCGCGCGCGCCGCCCTGGACGAGTTCATCGACAAGATCATCGACGAGCACAT GAGGAGAGGCAAGAACCCCGACGACGTGGACGCCGACATGGTGGACGACATGCTC GCGTTCCTCCCTGAGGCGAAGCCGAAGAAGGACGCTGGCGACGACCTGCAGAACTC GCTCCACCTCACCCGTGACAACATCAAGGCCATGATCATGGTATGGATACCGGAACT CCCATTTCTAATTCACCCGCAAAAAGAAAAAAAGGAACTTCCATTTTTAATTTGTTT GATTCATGGTATGGTGCGGTAAACTGAAGTGTGTATGTGACAGGACGTGATGTTTGG TGGCACGGAGACGGTGGCATCGGGGATCGAGTGGGCAATGACGGAGATGATGCACA GCCCCGACGACCTCCGTCGGCTGCAGCAGGAGCTCGCCGACGTGGTGGGTCTCGAC CGGAACGTGGACGAGTCGGACCTCGACAAGCTCCCCTTCCTCAAGTGCGTAATCAA AGAGACGCTCCGGCTACACCCGCCCATCCCAATTCTGCACCATGAGAACGCCGAGG ACTGTGTCGTCGGCGGCTATTCAGTGCCCCGGGGATCCAGTGTCATGATCAACGTAT TCGCCATTGGCCGCGACGCCAAGGTGTGGAAGGACGCCGACACATTCCGACCGTCG AGGTTTATGACGGGGGAAGGGGAGGCCGCAAGGGTCGACTTCAAGGGCAGCTGTTT TGAGTTCCTGCCCTTCGGGTCCGGCCGCCGCTCATGCCCGGGGATGGCGCTTGGCAT CTACTCACTGGAATTTGCTGTCGCGCAGCTCGCCCACGGGTTCAGCTGGGCGCTGCC CGACGGCATGAAGCCGTCGGAGCTCGACATGACCGACATCTTCGGCCTCACTGCGC CGCGCGCCACCAGGCTCTGCGCCGTGCCCACGCCCCGGCTTACTTACCCTTTGATCT CTGATGTTGATGCCACGCACAAGGCGTGACGTCAAGTCGTATGCGCGCACAAAAGT ATATTCATTATGTAGCACAATAAAGATGTTTCACTCGATTCAGGGTAACACTATATG AGCTTATATTAGACGACGGGTCCATGGATTCAAAATCGAGTCAAACTTTGTAAACAT TGACCAAGCGATAAATCACGAGTGGACATGCGGCCACGCAAGGAGGAAATCAGCTC CGTCCACTCCCGCGTGATTCGTGCACTTATTATACAACCAGCTTGTATAATAAGCATT GTATAGTCTTTGTATTAAATCAGAGAGGGCAGCTGTAAGTCCCACACGTCAGTTGCA TGGAACGGCCCGACATGCAATTAATCAGTCACCCATTACAACGGCTAGCTGCAGCCT GCAGCATACTCCTCTCGTTGCCTGCACCACGCTCCTCCCTCTTTAAATCACTCAGGCC TTCTTCTTCCTCTGCCCAATTTGCTTCTACTATTTGCTCTTTCTCTCTCACACACACTT TCTAGCATCGAATCGACCCCTTTCACAACCATGTGTTCATCCATGTCCCAAGCTATCT CTCCACCACCTTCATCTCACGTCATTTCCCAATCAAATTGCATCTCTTCCTCTCATAT GCTGCCTCGAGTGCCACCCTATCTACGTGCTCTGGTTCATTCTAGAAGTGGGAGAAA CAACTACATACAGTTCTACAGCGCCACATGAGGTCAACTCATATCGCACTCAACAGT CTACTGCCATGTCCCACTTTTCGAAGATAATCAAGCTTTGCTGAAGAAGATAACCAG CCATGCATCAGCCATTGCCGTGCTCTTCCTCCACAAACACGAAAACTTAGTCCCAGG CTGCAATCGTCGTCTACTTCATTTACTTTTCAGTTTAGACCTTATCTCAATCCAAACC AGCCATGCATCAGCCATCAATTTTTTTTTCTCACCAAGGTCGTCAATGTAATAGCTAG TAATTTCAGTTTGGACCAAGCTACTCAATGTATGATCCAGTATTGGCTGCTTGTTATA ACTACCCACTCACATTGTAAATGCCTGCCAGCAATCAAGGCACCCAGGAATAATTA ATGGCTTCATTTATCCAGTGTACTACCTGCTCAGCCTGTATTCATTTATTAGGAGCAG GTCGTGATTCGTTATCCTTGGCCATAATCACAGTTTGGTATTTTAATTTTGTCACATG TTTTGGACTACTGATTTACAACTGAAATCTTTACATGTATCATTTTCTCACAAAAAAA ATCAGTTAGCTTCATTCTTCATTGTTAGCTCGAATCATGAAAATTACAACTTGAATGT AAAACACAACATCAATAAAAAATCAGTACACAGATTCTACATAAAAGTTAAAATAT TTTTACATGGCTTATAGAATATTTTTGCGGCTTTGATTTTGATCTCAGCTTCACAATC ATACTTGTTTACCAAAAATTATAATTCTCATTGACAAATTAGAGACATCAAAATCAG CTCCACAAATTCCTAAGTGAACTACAAGCAGCATTTAATTACCAAAATGTATATTGA AAGTTTGTCATGGTTGCAGCTAAATTTGTGTGCTTAGTCAAAATGGTAGATTAACTG TGGCACAACGAACCTTAGCCGAAGCCAATCACACTTGCTTGCTCTCCACAGGGACGC AACTTGAACAAGAGCTACAAGGCATGCCATGAGCAAGGCCGATGCTTCTGGACGGC TGCCCCACGTCCACAGCAATTATGACTGACCCAACATGCAAGGGGCGTCGCTATTAG ATGAGCCGATATTCATACGAAAACTAAATGAGATCTGGCCCACATGTGCAAGGTAT AACATTGTGTATTTATGCTGGCCTGTGAATTACCTGCTCCGTATTACGCAGAGGCCT ATATTAAGTAGCAATCGCGATGCACATGCAGACGCTTGAGATTTCGGCATCACGTGC CACCATGTCCCAAAAATCCGCGTCGTTGACCAAGTCCATAGATACTTTTAGATTCCC CATGAAACATATCGTGCATTTGTGGGAGCACTTGCTACAGCCAAGCATGCATTTTTA TTCCCTCCGTTCCTGAATAGTCTTTTTAGAGATTTCAATAAGAGGCTATATCCAAAGC AAAATGAGTGAATCCATACTCTAAACTATGTCTACATACATCCGTATATAGCT SEQ ID No: 96 >Wheat_A0A077RQ37 CTGCATTTGAATAGTGTCATTTCTATTGTTTGTCTTCGAAACTCCCATGTTT TGAAGACTTCCATAAAAATATTCACCCCCCCCCCTCTAGTCGATAACTATCCCTTTCA CCTTCTCTGGTACTCTGCCGGAGGGGGAATCAATCACGGGGGGCTTCTACATCATCC TTGCTGCCCTTCCGATGATGTGTGAATAGTTTACCACAGACCTACGGGTCCATACCT AGTAGCTAGATGGCTTCTTCTCTATCTTTGATCTTCAATACAATGCTCTCCTCGATGT TCTTGAAGTTCTATTCGATGTAATCTTCTTTCACGGTGTGTTTGTTGGATCCGATGAA TTATGGGTTTATTATCATATTATTCATGAATGTAATTTGAGTCTTCTCTGAACTCTTTT ATGCATGATTGTTATAGCTTTGTATTTCTCTCTGATCTATCCGTTTGGTTTGGCCAACT AGATTGATTTATCTTGCAATGGGAGAGGTGCTTTGTGATGGGTTCGATCTTGCGGTG CTCAATCTCGATGACAGAAAGGGACATGACACATATTTGTATTGTTGCCATTAAGGC TAAAAAGATGGTGTTTATTCATATTGATTGTGTTTACTTTTGTCTACATCATGTCATC TTGCATAAGACGTTACTCTGTTTGTATTAACTTAATACCCTATATGCATGCTGGATAG CGGTCGATGGGCGAAGTAATAGTAGTAGATGCAAGCAGGAGTCAGTCTACTTGTCT CGCACGTGATGTCCGTATACATGATCATTGCCCTGAATATTGTCATAACTATGTGTCT TTCTATCAGTTGCCCAACAGTAATCGTTTTACCCACCGTATGCTTTTGTTCAAGAGAG AAACCTCTAGTGAAAACTATGGCCCCGGGTCTACATTTATCATATATAAATTCCAAA AATACCTTGCTGCAATTTATTTACCATTATTTTTTTGTGTTTTATTTTATCTATCTATC ACTACGAGATTTGATCCTTGCAAATAATCGTCGAGGGGATTGACAACCCCTTGATTG CGTTGGGTGCAAGTATTTGCTTCTGTGTGTGTAGGTACTGTGGCCGATGTTACGGTA CTCGATCCCGAGGCACACTCCGGCGTTGAATCGCAACCGAGAGAGCGGGCATTTCC TACTCTTGAAGGACTTCTTCGAACACCAAACCCGCTCTTCAAACATCACCTATTTCC ATTGTCGTTTCCGTATGGCTAGGTATGTTTTCAACCGTATCCGAGAGGGAGTGGTGT CATACGGTAAGTATTTCGAGTGCAAGAAATATGCCCTGGGAAAGATTGGCTTCTCCT CTTATCAGAAATGCAATACAGCTATTCGGATGCTTGCATATGGAGCTCCCGGTCTCA TTGATGAGTATGTCCATATGAGCGAGTCCACGTGCCTAGCTGACGGTATCTATCCTC AGTGGACTACTCTTGTGAAGACAACCTCCAATCCTGTAGAAGAGAAGAGGAAGAGA TTTGCCCAAGAGCAGAAACTTGGAGCACTAAGAAGTTGTGGAAGGTGATGACTGCT TGTGTGAGCATGCATAATATGATCGTAGAGGATGAGCATCCGAAACGTATCTATGAC CAAGGGTTTCAGTTTCAGGGTGACAATGTTGTTCCTGAGCATGGAGGGATAACGTTT TGCACAGTTTTCCAATTTCATCATTAAATGCGTGATTGAAAATTTTGCATTCAGCTGC AAAATACTATCCTCATTGGATTTGAAATATGTGGATTTCAGGAGCAAAATATGAGGG CCCGTCCGGATGCGTCCACGTCCACGGACATAGAGAAGTCGGATTTGCACGTCCGGT TATAGATGCTCTTAGATCTCACTCGTGAGCTTTGCTGATTTTTGGGCCGGCACCCTCG AACTTTTCTCCTCGGCTCTACTCGAAAAGCGTTACTCCAGTCTAAAACCCACACAGT AGAATACCCCAAGAAGAAAACAATAAGAACTAGAGCTTCTAGTTCGAGTACCAGCA ATGGTGGGCTTGACCAAGATCGCCATGGAATGGCTCCAAGATCCGCTGAGCTGGCT GTTCGTTGCCTCGGTGGTCTTCGTGATGCTGCAGCGGCGGCGGCGGCGGGGCAGGGC GCCGCCGCTGCCTCCGGGGCCGAACCCGCTTCCTATCGTCGGCAACATGTCAATGAT GGACCAGCTGACGCACCGTGGCCTCACGGCGCTGGCGAAGAAGTACGGTGGCTTTC TCCACCTCCGCCTGGGCAAGGTCCACGCCTTTGCCGTGTCGACGCCGGAGTACGCTC AAGAGGTGCTGCAGGTGCAGGACGCCGCCTTCTCCAACCGGCCGGCTAGCCTCGCC GCCACCTACCTCACCTACGACCGCGCCGACATGGCGTTCGCGCACCACGGGCCCTTC TGGCGCCAGATGCGCAAGCTGTGCGTGATGAAGCTCTTCAGCCGGCGCCGTCCGGA GACGTGGCTCGCCGTGCGCAACGAGTCCGCGGCGCTCGTCCGCGCCGTGGCCCGGC GGAGCGGCGAGACCGTGAACCTTGGCGAGCTCATCTTCAACCTCGCCAAGAACGTC ACCTTCCGCGCCGCGTTCGGCGCCGGTGCCGCCGGCGACGCCGGGAAGCAGGAGGA GTTCATCGCCATCCTCCAGGAGTTCTCCAAGCTCTTCGTCGAGTTCTGCATCGGCGA CTTCATCCCGTGGCTCAGCTGGGCGGACCCGCAGGGCATCAACGTGCGCCTCCGCGC CGCACGCGCCGCGCTCGACCAGTTCATCGACAAGATCATCGACGAGCACATGAAGA GGGGCAGGAACCCCGACGACGTCGACGCCGACATGGTGGATGACATGCTCGCGTTC CTTCCGGAGGCGAGAACCAAGAAGGCCGCCGGCGACCGCGGGGACGACCTCCAGA ACACGCTCCGCCTAACCCGTGACAACATCAAGGCCATGATCATGGTACGTGGTAGA TCCAAACTTCCGTCAATTATTTACTGCCATATGCGCCAAAAATAGATTTTTTCTAAGA ATTAGGTAAGCTTCAGTCAACTCTCTAGCTCCCAGATCTAGACATCAAGAGCCGTGT AGAATTTCTGTATTAGATAAAAAAATGTTTGTTTATTGACACTAAGAACCGGACCGA CTCCGTCAACTTTTAAATGCTTATTATACGAAAAGTAGCCGCTACACTCGGGGTGTA CTACACCCGACTTTGCAAAAACAACTGAAAAAACGTTATCAAACCAAATCTGAAAA TCTGAGACATCAAACCTTATCAAATGTTCGAGCTTCTTGTAAACTTTCAGCAACATT GATTTTGTCTTTTTATTCGGTGAGAACTCCTCGGATGTTATTTTTGGCTGAAATTTTA CAAGATCCTCAAACATTTTTATAAAGTTTATATGTTAAATTTTCAGATTTTTCAAATT TGGTTTGATCATGTTTTTTCAGTTTTTCACAAACTTGGTTGTACTAAACCCACGAGTA GAACATCTACTCTGACGCTTATAAGGTACTCCCTCTGGTCCATAATGTAAGACGTTTT TTAACACTAGTGTAATGTTAAAAAACGTCTTACATTATGGGATGGAGGGAGTAGATC TATCGTTCAAATGTAGTGGCGGTGCACAAGCCACTAACTTCAGATCAACTCGATTCT TAGCTCTAACTTCAGATCAACCCAAAAGAAAATGAGTTACTATTAGCCTCCTTTTGC AGCTCGGCTACAAAATGAGCTGAGTTTGGTCGCAAGTCTTACCTCGCTCGATTTTAC CTCGACATAGCTCAGAATACTCCCTTCGATTCATATTACCTGTCACTCAAACTGATGT ATTTAGTCATCCAGATACATCCACTTAAACGGCAAATAAGTAATATGCGTCGAAGAG AGTATCATAATGTGTTTTTTCTTTAATAATACAGGGAAGCTAAAATGTGTTTGTTACC AGTACTATGTTTTTTAAACTAAAATGTGCATGCATATATGTATGTATGTACGACAGG ACGTGATGTTTGGCGGGACAGAGACGGTGGCGTCGGCGATCGAGTGGGCAATGTCG GAGATGATGCACTGCCCCGACGACCTCCGACGTCTGCAGCAGGAGCTTGCCGACAC AGTGGGTCTCGACCAGAACGTGGACGAGTCGGACCTAGACAAACTTCCCTTCCTCA AGTGCGTCATCAAGGAGACGCTCCGGTTGCACCCACCCATCCCATTGCTCAACCATG AGAATGCCGAGGACTGTGTCGTCGGCGGCTACTCCGTGCCCCGGGGCTCCCGCGTCA TGATCAACGTCTTTGCCATCGGTCGTGACGCCAGCACGTGGAAGGACGCCGACGCG TTTCGACCTTCAAGGTTCATGGAGGGGGAAGGGGAGGCCGCTGGGGTCGACTTCAA GGGTGGGTGCTTTGAGTTCCTGCCGTTTGGGTCCGGCCGCCGCTCGTGCCCTGGCAT GGCGCTCGGCCTGTACTCGTTGGAGCTCATTGTCGCGCAGCTCGCTCATGGGTTCAA CTTGGCACTCCCTGACGGCATGGCGCCGTCGGAGCTCGACATGCGTGATGTCTTCGG CCTCACTGTTCCACGTGCCACCAGGCTCTGCGTCGTGCCCACACCTCGACTCACCTG CTCTTTGGTCGCTGATGATGATGCCGCGCACCAGGCATGATGTCATGCGTGCACCTA TTGTCTTTGTGTGCCCCACCGCCTGAGTTTGGTGGGTTTCTCTTTGCCTTTTTCTTCTT CTATTTTCTGATACTACAGAACACAATAATTGGATCTTCTATCCTTAGCTTACAGATT GTGATGCGTGGCTATTTTTCATGTATATTTTTTTGGGAGGGGGTAATGACACATGAA GCAGGCTCTACCATGAAGATCCATATTTCGGTGGTAGTTTGAGCATTGCACGTTTCA TGTCATCATCCTCGCTTGTTGCGACGAGTTGTTGAGCAATTATACAACAACGATTGG GATAACCCACTACAGCAATAGAGACATGTTTTTTTTTTGCTTGATTTTTGACTTTCTA GTTGGCTTTCTCCCAAGAACATGGAGTACAATAGGAAGTTAGTAAAAATGTAGGATT TAAAGATGTACTAAATTTCAAAAATGTGCACGAAAGTGAAAAATGTTCAGAAATTTT AAAAATAGTCATGTTCTAAAAACACGAATTGGAAAAATATACACTAATATCAAAAA ATGTTCACGCATACAAAAATGTTTGTGACCTTTAAATTTTTTTGTCAATTAAAAAAAT CAAATGTTTTGAAAATAAGGTAAAAGAAAACCGAAAGAAAGAACCGACCCTGCTAG CCACTCCGCCCGCTTCTCGTTCATGGTAGTAGTAGCGGGGCGTTCTCTTGAGGCAAT TCGAGCCGGTTCTCTCAGTTTTTTTTTCTTTTTCACTCTTTTTGCATTTGTTTCTTTGGT TTTTTTTATTTATTTTTCTTTGATTTATTTTGTTTCAGTTTTTGTTTTTAATTTTTTAGTT TTCTCTGTTTCCTTTGGTTTTAATTCTACATTTTTTGTGTATGTTAACAACATTTTTCTT CACATTTAACATTTTTTCAATACAAAAACTATTTTTTAATATATGGTTAAGATTTCCC TATCACATTTTTAAATGCTTGATTAAAAAAATTGCATACAAGATTAAAAAATTTAAT ACATGGTCAACATTTTTCTATACACAACTAACATTTTCCATACCCTTGATTAACATTA TTCAAATACTTGTTCAATATGTTTTTTCAAATGCTTGGTTAAAAAATTATATACATGA TAAAAAAATTCATTATTTTTTAATACATAGTCAATATTTTTTATACATATTTAAAAAA ATTCAAATACTTGCTCAATGTTTTTCAATTGATTAACATTTTTATATACATGATCAAA AGGATTCATCATTTCTTAATACATGATCAACAATTTTTTTATACACGTTCAATATTGT ACAAATTCTTCATTCACATTTTTCAAATACTTGTTCAACATTTTTCAAATGTTTTTTAA AAGTATAAAAAAGTACAAAAATAAAGCAAAAATGAAGAAAAAAATAGGCTGTGGC TAGTCAACAAGGCCCAAAGTGGTCAACAAAAGTCAAGAAAGCTCAGGGAAATCAAC ACAAGTCCAAGACAGACAACAAAAATCCAAGCAAGTTGTCGTTGTCAATAAGTCAC AAGAGAAGGCAAAATAAAAGGCCCAACTAGCCAAAGGCCCATTCATGCATGGATGA AGCTGAGTGGTGCACCGTAAACTATGGAGACCTTCAACTTTGGCCAATTTTCATGGA CTCATGGGCCTAGTTTTATCGCACTACACCTCCTACATACCCACCACCATGGGCAGC ATTAAATCATTTGTCAAGGCACACCCCCTGTATAAGGCCTCCATAGGCATGTAACAG GTTCACTCACGTCAATAGACTAAGGGGAGGGCACTAGAGATCTTCGAGTTTTGCTCC TAAAATGCTCTAGGATCGAGTCCGAGGAGCCGCATCGCGACTCAGATCGACGCTAG AGATCTAGAAGCCTGCTCTCAAGACGTTGTAGGGGCAAGTCCTTGGAGCCGTATCGC CTCTCGGATCGACCTCGGTCGAGAGTTAGGGAGAGGGTTTCAAGGAGTCGCGTCAT GACTTCGAGCCTACGACAGTCCATCCTACCC SEQ ID No: 97 >Wheat_W5AC21 AGTCATAATAGGTTAAGTCTTAATCCGACTTGGACTCTACATGTAAGCCA CTCCTTGAACTTATATATGGAGGGGCAGGTGACCCTAAGAGGGTCAAGTTTTTAGAG GGTCACAGTAGACAGGTTAAGATAGTCAGGGCTTTGACAGACAAGTCTAAAACAAG ATCAAAGTAGATGCTCTCGAGATAGAGGTAGTGAAACACGATCATCATCATCAATA TCAATGAAGTAGGATGTAGGCTTTTACCTCCACCGCGAGGGCCCGAGCCTGCGTAAA ATCTTGCGTCTCTCGTCCCACTCAACCCCGCTCAAGCTACCATTTAGATGAGTTGGCC TCACGACTAAGTCCTCACACTAAGATATCTGCCGTGACAAAATCACGACAACGAGT GTTGTCATCCGTGGTGGTTGTTGTTGGGTGGTCGAGTTCGCTTCGACAGGAATCTAG TGGTTGCATTTTATTTTTCGTGTTCGTATTGGTGTTGGTTGTGTGCCTCCCAATCGTGC AAAAATCGAGCATGCGACCCCTTCGGTAAATAAAATTCGCCGTTCACCAAATGACTG CAATTTAAACACCAAGAGACAGGACGCATCTTGCTGTAAACGAGAACTTGGGAGCT GTGGCTCGCTGACTCCCATTCATTAGAAAACTGACATATCTTATCTACTACTACTATA TATAGTCTAGCACTGAGATCGATCTGGAATCGTTTCGGCCCCAACGCGCATCTCTGC TCTCTGCCGCAACATATATATCTCTCGGCCCCAATCATTCTCGGTCCATCTGCCGTTT GGCTACGTGGCACTTCTGGCCGGCCCTGTTGGCATGAATACGTGGCCCATTACAGTA TTGATTAGAGTACGGTCAGAACTAAAGAATCCACAAGATAGCACGCCGTGCAGGTT CCTGCATGCTGGGAATCTTTAGGACAAAAAAAAAAGTTTCTCATGTTTTTGTTCACA GCGGCGATTAATAAGGACAAGCTTGAGCCAGCGAAAATTGACATATGAGATCGGGC ACTTTGTGCCCGTTATTTTGGAGTTCGAAAATTGCATTTATACGGCTTGAAAAAATTC CAAAATTTTATGTACATGCTATAGCAGTGTAGTATAACATGCCAAAATTTCGCTAAT AAACATATGCTTGCATTGCATGTGAGAGCTAAAAAAGACAAAATACATGCAAATTT GGGGCCAGTTTTTTTCGATTTTGAGCTAATTTTTCGCCTTTTTTGTGCAGTGTATACA ATAATGGGCACATGCATGCGTATTCATGTGTTTTTTTTCCAAAAATTTTAAGCACTTG TTTTGGTGGGTTCAAAATAAAGTACTCCGTTGCCCCATGTTCTGAAAATCCATTTTAT TAAGTCAGGCCCTGATCGATGATAAGCCTAGTCAGATGCTTATTACTGTAAGAACCG ATGCAGAGATGCCTGCAGTAAATTGTTAGGAAACAACATCCGTATCTTGTGAAATTA TTTACAACAAGTACGATCTGACATGGATACTCTAATTTAGATCACAGTATCCGTGCA TATGGGTACTAGTGCTGCAAAAATCTCTGCTGGTTTTTGGCATTGTTATCTTGATCCA GATAACAAATCGACATGGCTTGTGCAATGGGATTCCATTGTTGCATCAGCTCTCATA ATTAGGCTAATTTTGACAAATTACCAGTAGCATGCTGAATTCCAAGCATACCACTAA ATTGTCTAAACCTACAAAGTTTCTCCACCGGTGCCTCCTTTTTCTAAACTTTGAGCGA CTGCTGGCCTGACTTCACACGACGCATCTTTAATATGGTTCAAAAAGACTGATGTAT TGTTTCAGCTGGTCTGCCTCATCTCAATTTCGGGAGAATATTATACGGAAACCAATA TTAATAAAAAATTGTGAAAATCATATTTTAAAGTTTTGAAAAAATCTGAAAAAAAAT TCGGAATGTTAAGAGTGTGATGTTTTATTGCCACGCAATTTCATGTTGAATTTTTGCG TGGTAATAAAACATCACCCTCTTAACATCCCATATTTTTTTCAGATTTTTTGAAACTT TTAAAATATGGTTTCCACAAAGTTTTCATTAAATTGGTTTCCGTATGATATTCTTCCC TCAACTTCTGCTCCAACTATATATTACCCGGCATCCTCCACTCTTTTCCTTACCCTCTT ACAACACATCAACCTGAAACCTGCACTGCACAGTCGAGAATTCTCCAAGAAAAAAA AGTTAGAGCTTCTAGTTTGAGTATCAATAAATGGTGGACCTGTCCATGATCGACATG GAATGGCTCCAAGAGCCATTGAGCTGGCTGTTTGTTGCCTCGGTCATCTTCGTGTTGC TGCAGCGGCGGCGTGGCAAGGCGCCGCCGCTGCCCCCAGGACCGTATTCACCGCCG ATTGTCGGCAATATCTTCATGATGGACCAGCTGACTCACCGGGGCTTCGCAGCGCTG GCCAAGCAGTATGGCGGCCTTCTCCACCTCCGCCTTGGCAAGGTCCACACCTTCGCC GTGTCGACGCCGGAGTACGCCCAGCAGGTGCTGCAGGCCCAGGACGCCGCCTTCTC GCACCGGCCAGCAACCATCGCCACCACCTACCTCACCTACGACCGTGCGGACATGG TGTTCGCCCGCTACGGGCCATTCTGGCGCCAGATGCGCAAGCTGTGCGTGATGAAGC TCTTCAGCCGGCGCCGTCCTGGGACCTGGCTGGCCGTGCGCGACGAGTCTGCGGCCC TCGTCCGTGCCGTGGCCCGGCGGAGCGGTGAGCCCGTCAACCTCGGCGACCTCATCT TCAACCTCAGCATGAACGTCACCTTCCGCGCCGCGTTTGGCGCTGAAGCCGCCGGTG ACGGTGATGGCCGGAAGCAGCACGAGTTCATCGCTATCATGCAGGAGTTCTCCAAG CTCTTCGGCGCGTTCAGCATCGGCGACTTCATCCCGTGGCTCGGCTGGGCGGACCCA CAGGGCATCAAGGTGCGCCTCCGCGCCGCGCGCACCGCCCTCGACGAGTTCATCGA CAAGATCATCGACGAGCACATAAAGAGGGGCAGGAACCCTGACGACATGGACGCC GACATGGTAGACGGCATGCTCGCGTTCCTCCCTGAAGCCAAGCCGGACAAGGCCGC GGGCGACGACCTGCACCACACGCTCCGCCTCAACCGTGACAACATTAAGGCCATCA TCATGGTACGTAAGCATCACCAAACATCCATTATGTGTTGTTAGCCTCTATATATCCG TCTACCATGTTTATTATCTATGATGTTTTCTTTATTTTCGTTCTCTATTGTTTTCTGAAT TCCTTTCCAACAATTGAATCTTGAATCAAAAAGTGGTTTGGTATGTCATGTGAATAT GGATATTAAATTAAAGCATATGTTTGAAAATATTCTTGCTGACTTAGTAGAATATTT ATGTCTCTATTGCATATACACCGACAATTAATTAGTAATCAAAATGAATTTGTGCCA TCCAACATTTTTTCGGAAACAATTATGGAACCTTAACACTGTTCAGCCAACAACACC ACCCATTGAACTTTCGTCATCCATGAGACTTCTATGTTTTTCTAAGTGACATACTCCC TCCGTCCGGAAATACGTGTCCTAAGAATGGTTGTATTTGGACTTGTTTTAGTTATAGA TATATCCATTTTATTTATTTTTAGGACAAGTATTTCCGGACGGAGGGAGTATGATATA CTGTAAGTACTATCAGACTGCTCTGTTTGTGTGTGTGTGTGTGATAATAAAGTAATGT GTTGACGCGGCCTGCCTGCAGGATGTGATGTTTGGCGGGACGGAGACGGTGGCATC GGCAATCGAATGGGCAATGGCCGAAATGATGCACAGCCCAAATGATCTCTTGCAAC TGCAGCAGGAGCTCGCCGACACGGTGGGTATCGACCGAAATGTGGACGAGCCGGAC CTCAACAAGCTCTCCTTTCTCAAATGTGTGATCAAGGAGACACTCCGGTTACACCCT CCCATCCCGCTGCTCCACCGCGAGAATGCCGAGGACTGCGTGCTTGGCGGCTACTCC GTGCCCCAGGGCTCGAGCGTCAATATCAATGTCTTCGCAATGGGCCGCGACACCAA GGTGTGGAAGGACGCCGACACATTCCGTCCGTCACGGTTCATGGAGGGGGAAGGGG AGGCAGCGGGGGTCGACTTCAAGGGCGGGTGCTTCCAGTTCCTGCCGTTTGGGTCTG GTCGTCGTTCGTGCCCCGGGATGGCTCTCGGCCTGTACTCGCTGGAGCTCGTTATTGC GCAGCTCGCCCATGGGTTCAACTGGGCGCTGCCCAATGGTGAGAAGCCGTCGGTGC TCGACATGAGTGACATTTTCGGCCTCACCGCACCACGTGCCACAAGGCTCTGGGTCG TGCCCACGCCCCGACTTACCTGCCCTTTGGTTGTTGATGTCTGACGCCGCGTGCCAG ACATGATATCGTGAGCGCACAGCTGATGGTATCTACCAGCTGCGCAGGGCGTGATG GTGTTTGATCAGCGTGTTAGTTAATCTAGTTGTAGCTGTAGCTATTTTCCCCTTTTGT GTTAGATATTTCCTAGCTTCGTTTAGACACGATCGCACCCGTATAAATCGGCTGCCCT GGACGTGGAATTGTGGGCATCGTGGAGCCGGGTCACGATCGTTCCTTTCATCATGAA TAAAAAGGAAATGAAGAATGACAGAAAAACAGGAAGTTGTTCGTAGCACAAATGTT TACACCAGCATGTTATTCTTGTCCTTTGTTTCTCCTCCTTCCGCGAACTTGGTTGATA ACGATGTTGTTTTCATTTTCGAGAGTTAGTTACACTTTTGATATATAAACCTGCAATT GATGTACATATTCATACGTAAACTTGAAAAAATGATACAAATCGGTGCTACAACTTG TGTTTCAGATACATTCAAGTACATTTCGCTGATGACTCTCCGTTAAATTCTGCACGTT AGTTTACCTACACTTCATATCTGCGCATGGGTCACGCAAAGAAAGAAAGAGAAATA TATATATAGCAAAACCGAAAGAAAATAAGAGCGTACGCCGCGCATTGCCGCTCATG GTAAGGCGCCCCAGCCCATCCACCTTTGACCTAGGCAGCCGCCATCTCCAAAATCTA AGGTTTTCTGCCTCCCGCCGGCGCCGGCGCCGGTCCGTCCCGTCTCCGGTGGCCTTA GGGCCATGGAGACGTGGTGGATCTCAGCCCTTGCCGGTGGGAGGGCTCCGTTTTTAG ATCTTTTTTCAAGCTTTGTTAGGATTTGTATCCTGCTCAGGAAGGCAAGACGGCGGC GGCTCCCTGAAGATGGAATAAATGTCTCCCCGCCTAGCCCCCCTTCCGGTGATGCGC TTAGCATCATCGGTGGGCATGTGGAGGTGTGTCTCCGGCGGATCTGTCTTTGGTGGA TTTGCTCGGATCTGTTCGTCGTTCGTGTTCTTTGTTTGTCCTCAGATTTGATCCTTTTG ATCGACACTCTTCATCTGCGGCGGTTGCTGTTCTGGTGCGTTGGTTCTATGGACCCTT AGCACGACGACTTCCCGACTGTCTACTACAACAACGTTTGCCCGGCTCCGGCGAGGG AGGGGCGATGACAGCGGCGCGCCTTCGGCGCTTCAGTGCTTGTAGTCGTCGCTAGGT GGTCTACGAATCTGGATGTAATTTTTTATTATTTTTAGTGTTTATTGCACTAACATGA TTGAAGATGAATAGATTGAAAGTTTTTCCCGCAAAATAAATAAATAAATATATATAG CAAAACCCATTGCGCACGGTTGGAATCAAACTCGGAAGGTTGCCCCCAACACTACA CGTGCCAACCAATTCACCACGTGCAGCTTTCTATTAGCGCGCGTTATATATAGACAT TCCTTTAGATGACTAGGAAACAATTATGAAGTCAAAACATACACTGCTAGATGAGA GAAGTCCTTATTTAACACCGTGTCTAAATTTTATGCCCTATTTGACATCGACAAATAA TGTCTTCCCTATCTAACAACGAGTCTAAATTTTATCCCTTTTATAACACTTCTGTCCA TTTTGAGCCAAATGACACCTGAAAAGACCATTTTGCCCTCACGTGGTTTGTTTGTGTG CGGGTGTGCGCGCGCGTACGTGTGTTCCTGCTTAGTGTGTGTGTGTGTGTGTGTGCAT GTGTGTTTGCTATTGTGTGTGTACGTGTGTGTTTGTCACTGGGTGTGTGCGTGCATGT GTGTGTGTGCGGGCGCGCTCTGTTGCGTGCATGTGTGTTGTGTGCGTCTGTGCTGCTG TGTGTGCTACGTGTGTTTGCTGCAGCAGCGTGTGTGTGCTGCATGCGTGTGTCTGTGT GCCGCGTGCGTGTGTGCCGCTGCATGTTGAGTGCTGCGTGTGTGTTGCCTCGTGTGT ATGTGCTGCTACGTGTGTGCTACTGCCCTCGCACAGATGTTACGTGTGTGCTACTGCC CTGGTCTGAACAACGTGTTTTTTCTTCTCTTGTTTGGTTTTATTCTGCGCAGGACCAG ACAACCTGGTTTCCAAAAAAAATCTGAATTTCTAGTAGCTTTTTCTTCGAAATTTCCA AACGGATTTTGAATTCAAATTTCAAACAAAATTGAGTTGAAAAAATATGAGTTTTTG ACCGATATAAAATTGGGGGCTTACCAAAAATATTAAATGAAATTTAAATACATGCAT ACAAGTTTATTTTACAATATCTGACCTTTTAAATTGAAAAAACTTAAAATTTTGAAC GATATCAAAAACATTGGGGGCTCACT SEQ ID No: 98 >Rice_Os03g0112900 ACCACATGGTATTACATGGCACGTCAATTATAATTTAGGCATTTCGAGAT GAACATGACGTACACACTTGTAAGATGAAGATGTTCTCTCCACACAACCATAACCAG CCCATTACCCCTCACTATATATACTACCAACTTCTTCATCGGTCGTGCATTGTTGTAT TCTTTCGCCAACTCGTTTCTTGTTTTCAAAGTTGTGTTTGAGTCTGTTCAAGACGAAG ATGAAGTGCAGGTATGTAAAACCAGAAAGTCGTTAGCGTATGATTAATTGGGTTATA ATTATTACAAACTTGGAAAACATATTTATTTGATATTTCTAAAAACAACTTCCATATA AAAATTTCCGCATAAAATGTACCGTTTATCAGTTTAAAAAACGTGCTAACAAAAACC AAGATAAATTTTGTATCTTAATCAAGTTAGAACGTATACCCACCAATGTTTGATCCG TCAATTTCATATTGTATTGCTGATTAAGTTTGGTATAATTTGCCATTCTATTTGCTCTT AAGGCTATGGTAACCACTGTACATCTCTTTGCATGTTTAATCACTAAATTCATGATTT TATTTGCTGATCTTGCGCATATTACTGTGTTGTAGTTGATATTTTATTTGTATTCATTT GCTCTGTTTTGGATCCAAGAGAATTTAATGTGTATGTACTTTCTGTTTAGTTTCAGGT AGGATAATTGAAGTTGGATGATCCTACACCTCCCTTTAAGTATTTCATTCACTCCCAC AACAACTGAATTATTTGTTTGGTGGCTGGGTGTCCTTCTTCAACCGTGCATATTTTCA TTGTGCTAAAAATGTTATATTTCCTCTTGAGTTAAAGTGGTCTCAAATATGAAATACC TAATAATGTTTTCCCTTTCTAATCCTAAATAAATTAAATTCCTGAATATTTCTTTGAA AATGTTTTTTTAGTACATATGAAGTATACTGTATACCACATATGCTTCAGTATGTATA TGTGTAAAGCGGCATATTAATTGGATATGAAGTGTATGGCGTAAAATCGGGTTAGAT TATAATTGTAAATTTCAGTTCAATTTGCAGGTTTAAGCTGGTTATCCTTAGATTGAGA GTTTTTAATCAGTTCCATGAATATAGAAATTATTGCTGTTTTTTCCCGGTTGTAATAA ATCCACAGACAAGGTTATCTGAACCTTGCATGAACATACTCTTTAATACTATCTCCA TTTTAAATACATAGTATTGTTTACTTTTAAACATATATGTCCATTCGTCTTATTTAAA ACAAATATGCTAATATGCAAAAATATAAACTGTATTTAAAGTAACTTTAATAATAAA ATAAATGATGTTAGCATATTTTCTAAATAACATGAATGATCAAATATATGTCTAAAA ATCAACGGCATTATATACTAAAGAAAATGGAGGGAGTAGGAATCAGCGTATCTGCT AAAATTAAGTCGGATACAACCTTATAATCTCAATATAACCTCGTAACCATTTTTCCTC TTTGAGTGCCAGGCTATCTAACAACACTAGCTCCAAAAGTTCTTGATGTGGCATGGT GGACATGAATTTGTAACTGCATGCAGGATTCCAGCTCAGAGAATTGCAGGCTGTTGA TATCTCATCCCTGATTTCTGGTGCCCGTTATTGTATCATCTAGCACATTTAGAGCTGA TGCTTTTGATAATTAAATTAAGGAGAAAAAAAAGAGAGGAACTGATGTTTTTTATCC TAATCTGAGGAGAAAAATAAATAACAGTTGCTTTTAAGTCACTAATCTAAGGAGAA AATAAAGAACTGATCTAACCACTAATCCAAGGATGAAAAAAATAACAGAGATGAAC TGATCCTTTTGCCAAGAAACCCGGAAGAAATGATCCAGGAATGAAATAATCTTCCCC AAACTTTCGTTGAGCAATTTATACTACGAAATTTCTACCTATATAAATAGGCGCATT GCCCCTCTCCCATTTCTCACCAGCTTCGATCACATTCCGATCAAGCTGCAACAATGG CGAACGGCGTGGCAGAGTACTTGCTGATGGACCCGTGGCTTGTTCTATGGCTCGTCC TGGCCTCCATGGCGTTCGCATTGCTGCACCTGCGGCGGCGCGCACGCCGTGGGGCGC CGCCGCTGCCGCCGGGTCCGCGGCCGCTGCCGATCATCGGAAACATGCTCATGATG GACCAGCTGACGCACCGCGGGCTGGCGGCCATGGCGGCCAGGTACGGCGGGTTGCT GCACCTCCGCCTCGGCCGCGTCCACATGGTGGTGGTGTCGAGCCCGGAGCACGCGC GCGAGGTGCTCCAGGTCCAGGACGGCGACTTCTCCAACCGGCCGGCGAGCATCGCC ATCGCCTACCTCACCTACGGCCGCGCCGACATGGCCTTCTCCCACTACGGCCACTTC TGGCGACAGGTGCGCAAGCTCAGCGCCGTGCGGCTCTTCAGCCGGCGGCGCGCCCA GTCGTGGCGCGCCGTCCGCGACGAGTCGGCCAAGCTGGTCGGCGCCATTGCCAGGA GAGCCGGCGAGGCCGTCGACCTCGGTGAGCTCATCTTCGGGCTCACCAAGGACGTC ATCTTTCGCGCCGCCTTCGGCACGCGCGACGGCGGCGGCCACGGCGAGCTGGAGGT TCTCCTGCAGGAGTTCTCCAAGCTGTTCGGCGCGTTCAACGTCGGGGACTTCATCCC CTGGCTCGCGTGGCTCGACCCGCACGGCATCAACCGACGGCTCCGCGCGGCGCGCG CCGCCCTCGACAGCGTCATCGACAGGATCATCGACGAGCACGTCAGCAACCCCGCC GGCGACGAGGACGCCGACATGGTGGACGACATGCTCGCGTTCCTCGACGAGGCCGG ACGAGACCAAACCGGCGGCGGCGGCGAGCTGCAGGGCACGCTCCGGCTGACGCGC GACAACATCAAGGCCATCATAATGGTACGTGCCATTCTGACACCACTGCCATGGCAT GCACGTCGCGTTGCTTGATGGAGTTGGCGACGACAAGTGCAGGACTTCGTCTTCGGC GGGACGGAGACGGTGGCGTCGGCGATCGAGTGGGCGATGGCGGAGTTGCTGCACAG CCCCGGCGATCTCCGGCGGCTGCAGGCGGAGCTCGCCGACGTGGTGGGGCTCGGGC GCGGCGTGGAGGAGGGCGACCTGGAGAAGCTCCCCTTCCTCAGGTGCGTCGCCATG GAGACGCTGCGTCTCCACCCGCCGATCCCGCTGCTCCTCCACGAGGCGGCGGCGGA CTGCGTCGTCGGCGGGTACTCCGTGCCGAGGGGCGCCCGCGTGGTGGTCAACGTGT GGAGCGTCGGCCGCGACGCCGGCGCGTGGAAGGGCGACGCCGGCGCGTTCCGGCCG GCGAGGTTCATGGCGGGCGGCGAGGCGGCGGGGATGGACCTCAGGGGCGGATGCTT CGAGCTCCTGCCGTTCGGGTCGGGGCGGAGGGCGTGCCCCGCCATCGTGCTCGGGA TGTACGAGCTGGAGCTCGTCGTCGCGCGCCTCGTCCACGCGTTCGGGTGGGCGCCGC CGGGCGGCGTGGCGCCGGAGGAGCTCGACATGGCGGACGGCTTCGGCCTCACCGCG CCGCGCGCCGCGAGGCTCCGCGCCGTGCCGACGCCCCGGCTCACCTGCCCGATGTG ACGCGCGTTCTCGATTTGGCGCGAGAGATGCGCAACGCAGCTCGAAGTGTGACTGT GACAGTGTGAGCGTGTAATCTGGTGTGGACATCGTATGCATCATGTGTGCTTATGGA TAATTAAATATATAAATAATATTTGGATGTGGATTTCGGCTGAAATTTTCTGTCATTT CGAAAAAAATTCGTCCTAGAATTCAAATAGAATATTTTTTTTCTCATTATTTTTTATA GTTGCACATTGGCTACATTATCTGTAGAAGCTTCTTGATTCACGAGATCTAGCGGGC GTGACAATATGGTCAAAGAATTCTTTACCCTAGACATGGGCGTCGATATGGTCGTAA AGCTGCTCTTCAGCTTAGTAGCCACATCCATAATTTAATCTTAGGATTATTTTTACAG TTGATTCCGATATTTTTTCATCGTAAACATGGGGTTTTACATCATTAAAAACCCACAT ATAAAATCCTTTCCCTTAAAAGAATGATGGTCTTTGAAGCCCTTATTTCTTTTTTTAA TCTTCGAGTATGTATGAATAGTTTGATTACGTGCATTTTAATTATGTAGAGATTTGGA ATGCTATTCGACAATTATATTATCTTAATGTTACATTAAGTGAGATGCTTTTATTATT TAAAAATCGATTATATTTTAAAACAAAATCTGAAGCACTCCGTGGACCGTGGTTACA CGTGCCAGGTCGACGTGTTCTTCTGGAAGAAATCTATGTCTACTTTTGAAATGGAAT ATACTACCTCCGTTAAAAATAAGTACAAACGTAAATAAATAAGTACAAACGTAAAT ATCCGTATGAACGTTCGTCTTATTCCAAAAATTTATAAAAATAAATTATAAAAAAAC AGTCACATATAAAATATTATTTATGTTTTATAATCTAATAGTAACAAAAAAATATTA ATCATAAAAGATAAAGAAAAATTTAAATAAGATAAACGCTGAATATAAATAATATT TTATAAAGCTGTACTTATTTTAAGACGGAAAGAGTAAAAAATTTTGGAAAAATTTCT AGTGCAGCATGCTGCTCATTTGGGAGGTGTGTGCTGCTGCTCTCCAGTCTCCCCCAA CCAAAATTTGACCGAGTTTGGCACGAAAGAAACCGCCTCGACGCCGTCCAACGGAA GCCAGCCGAGGCGACCAACCCAAGGGTAGGCCTAGGCGTAAACCCTGCACCTGAAT CGATCGCCGGCGATGGCCACGACGCTGACGCCGACGCAGCGCTACGCGGCGGGGGC GCTGCTGGCGCTCGCGCTCCGCCAGGCCCAGATCCACCAGTCCGTCCTCCTCGGCGC CCACCACCACCACGACGACGACGACGAGGAACAGGGGCGCACCAGCACCAGCAGC GGCGGCGGCGGCGGCAGCTCCTCCTCCTCCTCCAACTCCGGCGCCGGCGCCGACGCC GACCTCTGGACACACGACTCCCACGGCCTCCTCCGCCCCGTCTTCAGGTGTTTTCTCG CTCCTCTCCGCTTGTAAATTTGGGGGGTTTGAGATGAATGCTTCCGCTTTACTTGGCG ATCGGGGGGCTCTGCTAGGTTCCTGGAGATCGATCCCAAGGCGTGGTCGGGGCTGG AGGAGACGGCGGCGTCGTCCGAGGCCAAGCATCACATCGGCGCGGTACGGCACTCA CTGCATTTTCTGCCCTCGTATTGTAATTGGCCGTGCGTTTTGGTCAGTGTTGCAGTGA TGGTTTGGGGCTTAGGTGTTTGATTATATGCCTACAAGACTGTTCAACTTCAATTTCC GCGTGTGCTTGACCAGTGAAATTTGTGTTTTCGTAGCATCTCATATCACTCTCATTTT GTAGTTTCTAAGGATAATATTCGAAGAAGATGGCGAAAGCTCCTCAGACAGATCCG TTCAGGAGCTTGCCTTGGCAAAAGGAGTTGATGTGATGGTAATGAGTTTGGGCAATG ACAGTGAAGTGGGTAACACAATTAAAGGTGGGGATCAAGATGCTTTGCCTAGCAGC TCTGGA SEQ ID No: 99 >Rice_Os10g0512400 GTTGTCGCAGAACTTGTTACAATTGTATAGTCCTTTAGTTTTTTGTACTAAT GTCATATTGGCAACACATATTCCTTGTTGAGTTGGTACTACCTGCATCAGCACCTTAA TCTTTCCTAGTTTGCTCTGCTAATGATGAACAATGTTATCACCAAGTTAGAGCAGTTA CGTAACTATAGAGTATTTGTTGTACAAATTTCTTAGCCTACTTGCCACTAATAATATA ATGGCAATATATTCACTCTTCTTTACGAGAATACATCCATCAAAATCAGATATGATC TTTGTATTATCAATAAATTGTTTATCTATGGGGTCCATGAATATGTGATTGTGGCTTA GGTCGTGTTCGATTCAGCCGTCTGGCAGTATTATTGTTTGTAATTAGTATTATCTATT ATAAACTTAAAAATAAATATACTTAATTTTAAGAAATTTTTATATAAAATTTTTTACA CGAAATGTACCATTTAACAATTTTAAAAAGTGTACTTACTTTATGAGAAATGAGTAA TAAAGCTCATCCGAGAATCCAAAAAGAACGAACCTTAATTAGGCCTTGTTTGTTTCC TATTGAGTTTTTGTCTTCAACTTAAAGCCAACGAAAGCTTAAGGTTCTCGAAACGAA ATTGTAGCTTCTCTACTTCTGGAAGAGGCTAAAAGCCAAAATGGAGGTTACAAATGT ATCTATCAGCTGTGATCGGGCCCACATCCATACATTTCTTTAAAGAAAAAGAAGAAA GAGAAAAAACTCTGTAGCTAGTTTTTTTTTTTATTTTTTGAACTTTTAAATTTTAAAA ATAAACCCTTATAAAACTTGTTTTCAAGATCTGAACATTTTCGTCACGTTAGCCAAA CTGACTTGGCAAAACAACATTGTCACGATGGTTTGGCTGACGTGGCAGCATTATTTA GTCACGCCGGTCTGGCTGGTATGACAATGTTATTTGACCACTCCGCCCTCGATGACG TAGCAGAATAAAATTGTCATGCCCATTATGTGCGACGTGCCAGTGTTGTTTTGCCAC GCAAGACAGACGGGTGTTGCTAAAAGTTTCAGATTCTGGAAAAAAAGTTTTGGCAA GGTTAATTTTTAAAATTAAAAAATAAAAGTTCAAAAAAAAATTGTAGCTAGTATGG AAGGTGCTGAGAAAGCAACTGAATGCAATTTTCCAAAATGGAATAGTTATGGATTT GGCGGATACAATGAAAATAAGTTGAAAGTGAACATTTGTATTTGTTTTCTTGATCCA TCCTTTAACCGTATATGGTGATGTAAACAGCTAGTCTTAAGAAAACTGAAAAATATA TGGTGATGACTGATGAATACCAAATGCTAATCGTGTACGGTCGTTTAAGCATGTGCA CTAAATATACAAAAAGGAAATGTATCTGTTCAACATCTTGGATTAGACTAAGCATTC ATGGATCTTCAGCCCAACTGTAGTATTGATTACTATTTGATATGAACAATTCCAGAC CTCGTGTTGGACAAGTTCACCCTGTTACTTTGGCCGGCTAATTGCCAGTTTGCCAATT GCCACCACTTGCTCAGTCAGTTGTGTTACTCAGCTGTGCTAACGTAATTTCCATGCTA TTGGCAAACCTAATTTGCTGCAAGATATGGAAGTGTCAATAAAAATATATTACTTTT AATAGTAACGAAAATATAATAAGAGTTATGATATAGGATACTTCATATATCTAAAA ATATACTAAATTCTAACGATGTATTTGGATATATTTATCTAAATACTAGTCAGAAGTT ACTATATTTTGAGATGTGGATATATAGGTGTCATGAAAAATGATTGAAGGAGAACCT TTTCGTGATATACTGGGACCCACTGCCTAAAAATATAGAGGAAAAAAAAACGAAAA TGCATGTATCTATGGAAATTTGAGATCCTATACTAGTCTTAAACCAGATATAAAAAT ATCATTCCTCACCTACTCCTCCCAACTCTATATAAACCCTGGATCATCCTAACTTTCT CCTCAGCTCTACACCAAGAGCGCTTATAAACATAAAAAACATCTCAAACACAACCC AAAATAGGGCCAAAATTCTAGAATATTATTTTTGTTTTGAAAGGAATTTAAGTTTGT GTGGTGTGTCATCCATGGCGGACATGGTGAAGTTCACCATGGAGTGGCTTCAGGATC CTCTGAGCCTGGCGATCGTCGTCACGGTGGCCGTCCTAATCATGCGGATGCAGCGGC GGCGCGCGGCGCCGTTCCCGCCGGGGCCGAAGCCGCTGCCGATCGTCGGCAACATG GCGATGATGGACCAGCTGACGCACCGCGGCCTGGCAGCGCTGGCGAAGGAGTACGG CGGCCTGATGCACCTCCGGCTCGGCCGGCTCCACGCGTTCGCCGTGTCGACGCCGGA GTACGCGCGCGAGGTGCTCCAGGCGCAGGACGGCGCGTTCTCGAACAGGCCGGCGA CCACGGCGATCGCCTACCTCACCTACGACCGCGCGGACATGGCGTTCGCGCACTACG GGCCCTTCTGGCGCCAGATGAGGAAGCTGTGCGTGGTGAAGCTCTTCAGCCGGCGC CGCGCCGAGACGTGGCTCGCCGTGCGCGACGAGTCCGCGGCGCTCGTGCGCGCCGT GGCGGCGTCGCGCGGCGAGGCCGCCGTCAACCTCGGCGAGCTCATCTTCAACCTCA CCAAGAACGTCATCTTCCGCGCCGCGTTCGGCACGCGCGACGGCGAGGGGCACGAC GAGTTCATCGCCATCCTCCAGGAGTTCTCCAAGCTGTTCGGCGCGTTCAACATCGGC GACTTCATCCCCTGGCTCAGCTGGGCGGACACCAACGGCATCAACGCCCGCCTCGTC GCGGCGCGCACCGCGCTCGACAGGTTCATCGACAAGATCATCGACGAGCACATGGA GCGCGGCAAGAACCCCGACGACGCCGACGCCGACATGGTCGACGACATGCTCGCGT TCCTCGCCGAGGCCAAGCCGCACGCCGGCAAGGCCGCCGCCGCCGCCGCCGGCGCC GGCGACGGGGCCGACGACCTGCAGAACACGCTCCGCCTCACCCGCGACAACATCAA GGCCATCATCATGGTACGTGCAGTTGACAACCTACTAGTAATTAATTACTGCCAAAT TTTTCACCAACTTAATCTCTCTATCACGGTAATGATTAATTACCACTTACTCCTCCCG GCCGATCAAGATAAAACCCGATCGAAATTAGGCAACACCAAATCCGTAAAATTACT GGAATTAATGATTCACCGATTTAGAGCAAGTTTGATAGTATAGCCAACTATTAACTC TAAATCATCTATAGCAAATATAATAGCTAATTTATACAATAGTTACTTACTATACTAT TAATATCTGGTCCCACCTGTCATACACACATTACGTCTTAGAGTTCGTGCTGCAGCTG GCTATAGATTTTGTAGCCCGCTGCTCTTTTCTCTCTTGCTTTATCTTTTTAAAATATAT TTATAGTTGGCTTACTTATAGCCTGCTATTGTAACTACTCTTACACAGCACAGCAGTA TGGAGTAGTAATATATATCTTAAACTCTGACAATTAAACATGATAAATTCATCTGAC GCAAACACAACTGTACGCTATAAATACGCGTACAAATCAGCAACAGTAGTGTACGG GGCCGGATTATTAGTCAGGTAATATATCATTTTATTTTAGGCGATTAAGTCAGGCAA ATTATCTTGATCCGTGTAGATTATTTGACAGGGCAGAGATCTCTCCTGGTATAGTTG ACATGAACACCATGTGCAGTCCATGTGTGTGTTCGCCTCGTTTGCAGGTGAATCGAT ATGATCAACCGTTAGATGGCGCCACGTATGCATCATGGATCATAGATTAAGCCCTGC AAATTAAAGCCACTCAATGAAATGCTAGATTTGAGGAGTAATTAATTTTAGTGTAGA ATACAGTGGTCCTCCTTGATGCATCCCTCGCAATGTATCTGCACTTCTACAGGCAGTC AACTCACTTACATAAGCATTGTCGACTGTTCCCGAGGAGATCGACACCGTCAGATAC GGCATTAACCTATGATTATTTATACCCATATTTCAATATACGGGTAGTAAAATATTCC GAGAATTTTATGGAGTAGCACGTACTCGGAGGAAGTAGTAAAAATAGCTTTGTACTT ATCCCTCCGTTGTATAAAATATCCAATCCTTACCATGTACTTCCTCCGTAAAGTCGTT TTGAACAACGATACGGTCTCCAAAATACAACTTTGATTTCTTGTTTCTATAAAAATAT CTATTAAAAAGTAATATATGTATACTTTTATGAAAATATTTTTCAAGACAAATCTATT CATATAATTTTTACATTTTCAAACTCAACAACTTAAGAGTTATTCATGATTTATATTC CTAAGATTTGACTTAAAAACAGTCCTAAACGACTTCCTTTACAAGCACAGAGGGAGT ACCCGGATATATACGTGTCTAGTTACGTGGCTAGAAATTGTCTCTCTCTTTTTCTTTT TTTTCTTTTTTGATATAGTAGTATATCGGATACAGCTAGAAGTAACTATAGTGTTAGC CTTTTTTAGCGAATAAAGGTAGAAGCTAATCTTTAACCACGTTCTGGTAGGATGACA GCTCTAATTTTATTTCACATCTTTTAGATGTGGATGTTTTCAGCGTGTAATATATATC TCCTTTTTCAAAAAAAAAACCTATATTTTAAACGAACTTATATAGGAATTTTCAGTG GTAGACTGAATAAGTGTTTTGACTTGCTGGTAGAACGACTGGATATTTGCACACACG AATAATCTTACAGTCGCTTGGCGCAACAGCCAACCTAGCTTGAGGCTCAAATTAAAG TCAGAGCACGAGCCTGACCAACGCCGGCCGGCGGCGGGTCTTCTCCGGCGCCGGCG GCCGGTGATCGATTTCATTTCCAGGCTTATTCTCCGCGTATGCATGATGTGTCAAGCT ACTGAGCTATAGCTAGCCGTCTCTCTCGTGTACGAGTCTCTTACCACTCTTGGCTAGC AAATCTGACGACTCTTTGACTGAACGAACAACTCGTACGTCTTAAAAGCCAAGAAA ACAACCCCGGTAGGCTGTAGGTGTGTTCAAGGGGTATTTTGATTTGGTACCTATATA TTCTTGTCTTTATCAATTAATTCGTTTGTAATAAATTGTACTTACATGTTAACTATTTG AATTAGACCTAAAGTATACCAAATCAATAGAGTGGTGTCAAACAGGCACTACCAAA TAAAAAAAATGCCTACTAGCAATTTTTATTAGGGTTTGAAACCATACAAATCCTAAG TTATCTTTGTGATACTATTGTCGTCGGCCTCACCCATGGTTTGCATATGGTTGAATAT ATCTGGGATTTTTTTTCACTTAAACGGACATCTCCTTGTTATTATTTTAAAAAAAATT GACAATAAAGAATATTATGTAATATTTCAATCTAAAAATATATAAGTTTAAATTTAA CTTTTAAAATATATTAAAAATAATAAATATTATTTTGAATGTCTGTATACTAGCTATA GTTTAATTTGTTTTTTTAATAACTTGTGGAAGTTAAACTTAGCATTATTCGTGTGCGA AGTGATATATATCATATTAATTTATTTTATAGAAAAAGAATTTTTTTATAACTGTTTG AGTGGCCTAAGAAAAATAATGGAACATCCTCTCGAGGAATAAAAATTCATCTCCAA TATATTTACTGTGTTGATCTTTCGCTGGTGTGTTATAGTGTGCGTCCGTCTTCTTTTTT TGCCTTGTCAACCTATTACGTACTGTCATGTATGTTAACGGACTTGTTAGGGAAGCA AACTGTGAGTATGTCTTGTTTATTTTTCTTGGTTTTCTACCTAACTATTACTATCATGT ATGTTAGTGTACTTGTTAGGGAAGCAACCATGAGTTAGGAGACATACGTAATTTGTT GGACTGTTGGGTGTGTGTGGTGTATTTTTGTGGCTAGAGTTAATTTGGATTTTTATTA TTTTAGTTCTTTAAAAAAATTAAAATTTCTCATTGATTTTTTTGGCATTAAGATAATT TTATAAAACCATGAAAATAGTGAATTCATTCATCTGTCTATTACCATGTTTTAACGAT TGGAGAGCACATATTAACATGAATGCATTTTGCACTTAGTACCTCCATTGTTTTTTTT TTGGGATCGAAATACATCACGTAATAACACCTAGGAACGTACGCAACATCATTTTCA ACTTTTAAGACCCCTTTCTCCAATAATTGAAAAATTAAACATGAACCAACCTATTGA ACTTCTATGTATGTCACCATCATCGCATCTCCCTTTTAACCTACTCCCTATGTTTCAC ATTATAAATTGTTTTCGGCTAGTCAAAATTATTCTAATCTAATTAAGTTTATAGGATA AAACGTAAAAGCATTTTTAAAACAAAGCAAACATATAAAAATATAGTAAATGATAG ATTTAATGAAAACAAATTTTGTATTATAAATGTTGCTAATTTTTTTATAAACTTGACT AAATGTTAAAAAGTTTGACTTAAGATAAACTCTAAATGGCTTATGATGTGAAACCTG GATAGTAAGTCCATATAGATAGGCTCTGGCCATATTGGTGCATGTCACCCTCCAAAG TAAAATCTTCATTTATCTGGCCCCAACGGCCGCTCAATACTTTAGACCAACCAAATC ATTTCCTTCCATCTCACGGTAACAAAATGAATGATGTTTTTATTGTCTCTTCATCTTT GCACATTAAAAAAGTGAAAACTTTATAACATCATTACTGGTAAGCATTACGCAACAT GGCACTGACTTCTTGTCTGAATGTACACAAGCAACAGCTTGTTTTTATAGGACAAAA TGACAACATATTGCCCTGTTGGAACTTAGATGTACATTTGTCATGTAAGGATAATAT TAAAATGAAATCTGTTGATAGGAAAAGTGAAATTTTCTTTCTACCACTACCTAATAT GTGGTCCTACCTATGTATACGTAAGATTGGCACAAGTAAATTTGGTATGGAAAATTG TATTATTATACTTTTATTAATCCCTCCGGTTTTTTTAGTACGACGTCATGAATGTTGG ATACATGCTTGAACATTTATCTTATTTAAAAAATTAGTCAATTATTATTTGTGATATT GTGATTTATTTTATCACTAAATGTATCTTGAGCATAATATTTAATTCTTTTTTATATTT GCACAAATTTTTGAATAAATTGAACAATCAAATAGTTAAATGTATTTCCAAAAGTAC CATATACTAGTTATGTTTTTTAATAGGTAATGCCGTTGACTTTCAGACACACATTTGA CCATTCATCTTATATTAAATAATATATATAATAATTATCATTTATTTTGTTATGAGTT ATTTTATCAGTAAAAGTACTTTAAGCATGATTTGGAACTTATGCATTTGCACAAAAC TTTAAAAGTAAAACGGATGATCAAATACGTGTCTAAAATTCAATAGTGTCATCTATT AAAAACAAAAATAGTATTAAAAACAGTGGTGGAGCCACCGCCTGGGATCATCGCAG CGAACACACTGTAAAATTTGATATATTATAGAATTGAAAACAAAATTTTCATAGCAA ATACTTGTTGTAGTTAGATTTACCCGAGCATCGTAAATTTTCTAGTCTCTGCCACTGA TTAGAAATGGAGGGAATAATAAGTAAACAACAAGTAGTGTGAGTAATAAGCAAAG GTGATGACGTGGCATGCAGGACGTGATGTTCGGGGGGACGGAGACGGTGGCGTCGG CGATCGAGTGGGCGATGGCGGAGATGATGCACAGCCCCGACGACCTCCGCCGCGTG CAGGAGGAGCTCGCCGCCGTGGTGGGCCTCGGCCGGGACGTCGCCGAGTCCGACCT CGACAAGCTCCCCTTCCTCCGCTGCGTCATCAAGGAGACGCTCCGCCTCCACCCGCC CATCCCCATCCTCCTCCACGAGACCGCCGCCGACTGCCTCGTCGCCGGCTACTCCGT CCCCAGGGGCTCCCGCGTCATGGTCAACGTGTGGGCCATCGCCCGCGACCGCGCCG CCTGGGGCCCCGACGCCGACGCGTTCCGCCCCTCGCGGTTCGCCGCCGGCGCCGCCG CCGAGGGGCTCGACTTCAGGGGCGGCTGCTTCGAGTTCCTCCCCTTCGGCTCCGGCC GCCGCTCGTGCCCGGGCATGGCGCTGGGGCTCTACGCGCTCGAGCTCGCCGTCGCGC GGCTCGCCCACGGCTTCAACTGGTCGCTCCCCGACGGGATGAAGCCGTCCGAGCTCG ACATGTCCGACATCTTCGGCCTCACCGCGCCGCGCGCCACCCGCCTCTCCGCCGTCG CCACGCCCCGGCTCACCTGCCCCTTGTACTGACGGCGGCCGGCGACCGCGGCGGCGT ACGGCAAGAATGGTTTGCAGGTGATGGTGTTAAAAGTTCAGACGCGTGTGGCGCCA TTGGAGGAGCTTGGTGTGGCTAGCTTAGCTTCCTCTGGGCCTTTTTTTTTTTGCTGGT TTAATTTTCTTTTTTTTTTCTCCTTTGTAATTTAATCCATGTCTCCAGAACAATAAGTG GATTAGTAGGGTATAATTAAGGGTGACAGTGTGATATATAGACTATAAGATCAAAG TTGTAAATTTGGTGTCCGGTGTGCCTGTCCACATAAGCACAGCCTCTGAATTTTCTTG TAAAACTTTGTCATGAAAATTGAGAAAGAAAACACCTCGCTTTCCACGCGTACGCTT ACCAAACTATTAAATGGTGTGTTTTTTTAAAAAAAAATTCTATGGAAAAGTTGCTTC AAAAATAATATTAATTCATTTTTAAAATTTAAAATAGTTAATACTCACCTAATCATA CGCGCTAATGACATACCTCGTTTTGTGTATCTTTTTTTTTCCTCTCCTCTCAAACTATC GGGTTGCTATATGTTATTAAAACGGGAAAAAAAAGGCAAACTCCGAATGTTTGTTGT GAATTTACATTTCTACTAAAAATTTAGGACCGCATGAGTTGTGATGTAGTGGCCTGA GATGTGAATGGGGAGAGATCGTACAGGGCCAAATATTTCCCCAGCGGCTGTACAGA AAGACCACCTATACAACTTTTCTCAATGTAGTAATATTATACTCCCTCCGTTTCTAAA TATTTAACACCATTAACTTTTTAGCACATGTTTAACCGTTCGTCTTATTTAAAAATTT TTTGTGAAATATGTAAAACTATATGTATACATATGAGTATATACTTATATTTAACAAT AAATCAAATGATATGAAAATAATTAATAATTACTTAAATTTTTTAATAAGATGAACG GTCAAACATATTTAAAAGGTCAACGGCGTTAAATATGTAGAAACGGAGAGAGTAAT TTTCTTAGGCATCCTACCAGCATTAGTAGTTAGAGCACCCGCAATGGTAAAGTAAGG TGCTATCTATAAAATATGTACATCTCAGCAATAGACTAAATTAATAGTAAAACACCT CAATAGTATGTCTACATAGGTATCTATAGCTCTCTAATCAATTGACTCATTTTTCTCT ATAGACTATCTCTAAGTTAGTAGATAGTTTTACTCTCTCTTTTCATTTAATCTCTTTCA AGTAGGAAAATATGCTGACATAGGGAGCCTATAGATAATCATTGCGGGTGCCCTTA GTACACCTGTAGTCTAGTCACACAGTTGCATTAATGAGTAGTTTATAATAGCCATAA TTAGGTTACTTGTAACCAACAGTACTGATGACGAACATATATATATATATATATATA TATATATATATCTGTTTTTGTTTGGTGAAACGGCCTTTTCTTGTGTAAGATTAATTCA AAATTAGATGGCGCAGGAGCAGGAGCAGAATTCGTTCAACGAATTCACTGTTCAGC AACGTCGGCCAGATCAGAAAACGACCCTGCAGAACAGCAGAAGTGGAGCTTTCTTA ATTACAATCTTCAGGCATCGAGGTAGCTACCCGACCCTCTAGTTTCATTTAGCTCTTC AGAGTTAACATTCATCATGCATGGAGTTGGTTGCTAGTGATTACTCCATCTGGTCAC AATCAAAAAAAAACATGTTGTCTTCGGCATTTCTTCTTCCAGTCAAGAGAGAACATA ATATTGTTGGTGCATCAAATTTAAAATGGAAGACAAAGCTATCAACCATAATGACCG GTTGTTAGCTTAATAAGGAGTGACGAATACTTGAAAGCTGGCTAATTCAGAACCTTC TTTCTAGGTCGGCCGAAGGATTAGGCTAACCTAATTATATTAAGATTGAGAAGTTTA ATTTACAGATACTTTTTTAATCCTTGAAAGAAAATCAAAGTGTGATAAATATGATTT TTTTAAAAAAAAAACAATCACCCTCTTTTCTCCAAATTATCTGCGGTAAGGCATGTC CACTTTGTGGCCACCCTCCAATGCCGAACCTTTGCTGAATCTCAAGCAAAAGGAACA AGCAAGAAATCTCTGCTGGAAAGGGAGGTTGATAAAAGGCACTACTCCACAAATGT CAGTTTTTTTGTCTGAGCTTGGTATTATTTATTTAAAAGTAGCTAAATTTGTAAGTTG GTTACAATTGTGCAATAATAGTAATAACTTGCAACGTCCGAGCTAATTTACAATTAT GGGTGACCATGTTTCGCATCACTAAGGCTGTGTTTAGTCCATACCAAAATTGAAAGT TTGGTTAAACTTGGAACGATGTGACGAAAAAGTTGAAAGTTTGTGTGTAGGAAAGTT TTG SEQ ID No: 100 >Maize_A0A0B4J2X1 TGTTATTTTGCATCACTATTTTTAACCAATTTTTAAGTTACCGTACCAATGC ACGGGCACCCATCTAGTATAATATATAGAAACCATAACGACAAAAGGGCAACTAAC TAGTACACAATAAATTCCATGGGAAAATTTTGACGTTGGAGGAAAACCTACTAGTGT TCTACCATCTACCGAGTCCATATCTTGGGTGCTCTGCCAGATCCATATTTTGCTACAA TTATTATCCTTCTTAATATCAGGCACTTCAGTGTTACTACTCCATCACTTCTCATCGTC AGGGAAGGGATACCATAACCTAATTTCGAATGCAAATATAATATAATTAAATGTAG AAAACGAGATCATATTCCTATCACCAGTTATCTCAACCTAATATTTAATTCTTCCAAA TGAACCTTTGATCCATCTAGATCATGAAACATAAGTTACATAAAAATCCAACAAGAT ACACCGATCTCATACACAAATCTAACTGGTGGGAATAAATAGCCAAAAACAATTTG TATAGTTGGCTTTTTTAATAGTACAGTAGTACATCCAACAATCACTACAAGTAACTG TTCTTTTGGAATTATGCAGTCAACACGTATGGAATTTGACTATCAACATCTCTAAGA ATATTAATTTCAAATGATATTTTGAAAATGGTATGGCTAGATTTTCATCAATATTAGG TTCAACATATTATAAATTACAATACGTTTTAAACATACTCATACAAATTATTCATAGT CCAAGTGTTTAGTTGGCTATAGAAAAACAATATTTTGTTTGTTATACAAAAGAGTCA GATTCTTTGAAATTAATATTTTTAAATCCATACTTATAAACCACCGGTTTTCACGGTT CCACAGGCGTCATATGTCACCCTTTCCCTTCTTCTTTTATGCAAAAATAAGATAAATT ATTCATAAGTGGGAGTTTGAATCCTGGTTGTTGGCTCCACATTAACACCATCCTAAT CAATAAAACACACACTTTTGTGTTTTATTAAAATAAAATCTCTCTATGTGATACATA GAAACCGTAGCAATGCAAGAACATCTAACTAGTTAATCCTTTATGCTTATTAGATTC CACCTAGTGCATGCAACATTAGGTGCATAAAAACCCAAGAGAAGAAAATGTAGAAA ACGGTAATAGTCTTCAATTCTGCCAAAAAAACTTACCTATCCAGTGCATGCAACATT AGCTGCTTAAAAATCCAAGAAATATATGCTGACGCTCATATATAAATCCAGCTGGTT GGAATAAATAGCTGGGAAAAAAACAAGATGCATAGTTGGCTACTTAACAGTACAGC AGTACTTCCAAAAATCACAATAACTGTTGCTTTGGATGTATGCAGTCAACATATGTC TTGATCTTGACCATCACTGTGTCGAGGAATATTATGTTCAAATGATGTTCTGAAAAT AGTATGGCTAGATTTTTCATCAAAATTAATTTGAAATTTTCTTACACAAAATTAATCT GTACTATTTTTTACTATCAGAACATATTTTTATGTTCTTTTGTTTAAGTATCTCGATTG AAGCACCATCTCGCACCATTTTTAGGCATGAAAAATTCGTATGTCTTTTCTGTTTCTC TTTTTTCTTTTACTATTTTGAATTTTCTATACATTTCAAACATACTGATGCAATTTTCA TAGCCAAATATATAGTTCCTCCGTGATCATTTATCTGTTTGTTATAGGAAAGACCGA AAGAGCAGCATTCCAAGAAATAAAAGTAAATAAATAGATCATTTTATTTGCTTAGA AATCCCCTTTTCATTTTCAGGCTCTAGAAATCCATCCGTTAATTAATTTGCTCCATAG TATTAATAAGAGATAGAGAGATGGGGAGGGAGATCCTTTTCGTAAAAGAGAAAAGA AGATCCTATTTCTATCACGCTATTAGATTATCTCCAGCAGTCTCTCTTATTCTATTGT ATATTTTAAAATTTACTCTGTAAACCGTGTCTAGAGTTTAGAATGTAACATAGTATTT TTGAACAGTATTAGACGGCACAACTATCTCAATTTCTCAGACCCAATATGGAAGTCC AGGTCCTCACCTACTCCTCCGGCTATATATGAACCGTGCACTCCTCCCTTTCTTTTCA GCTCTACTCGAAGAGCGTTCTACCACCACACCACAATCTAACTAAAACCCAAACGA AATAAAAGGAAGAGGTCAAAAAATAAAAGGTGTTGTGCAATCGATCATGGTGACCG TGGCCAAGATCGCCATGGAGTGGCTCCAAGACCCTCTGAGCTGGGTGTTCCTGGGCA CGCTGGCCTTGGTGGTCCTGCAGCTGCGACGACGGGGCAAAGCGCCGCTGCCGCCC GGGCCGAAGCCGCTGCCGATCGTGGGCAACATGGCGATGATGGACCAGCTGACCCA CCGCGGGCTGGCGGCGCTGGCCGAGAGGTACGGCGGGCTGCTGCACCTCCGCCTGG GCCGGCTGCACGCGTTCGCGGTGTCGACGCCCGAGTACGCGCGCGAGGTGCTGCAG GCGCAGGACGGCGCGTTCTCGAACCGGCCGGCCACTATCGCCATCGCGTACCTGAC GTACGACCGCGCCGACATGGCGTTCGCGCACTACGGGCCCTTCTGGCGCCAGATGC GCAAGCTGTGCGTGATGAAGCTGTTCAGCCGGCGCCGCGCCGAGACGTGGGTGGCC GTGCGCGACGAGTGCGCGGCGCTGGTCCGCGCCGTGGCGTCCGGCGGCGGCGGCGG CGGCGAGGCCGTGAACCTGGGCGAGCTCATCTTCAACCTGACCAAGAACGTGACGT TCCGCGCCGCCTTCGGCACCCGCGACGGCGAGGACCAGGAGGAGTTCATCGCCATC CTGCAGGAGTTCTCGAAGCTGTTCGGCGCCTTCAACGTCGTCGACTTCCTGCCGTGG CTGAGCTGGATGGACCTGCAGGGCATCAACCGCCGCCTCCGCGCCGCACGATCCGC GCTGGACCGGTTCATCGACAAGATCATCGACGAGCACGTGAGGCGGGGGAAGAACC CCGACGACGCCGACGCCGACATGGTCGACGACATGCTCGCCTTCTTCGCCGAGGCC AAGCCGCCCAAGAAGGGGCCCGCCGCCGCCGCGGACGGTGACGACCTGCACAACAC CCTCCGGCTCACGCGCGACAATATCAAGGCTATCATCATGGTACGTACACACGTCAT CCTCTGACCTCCCTGTTGTCACGCTAATCACGCCAAAATCGTCCGTTACGTTCCTCGA CTCGTTTTTGCGCTTAGGAAAATCGTGATGTGCCAGAGCAATGAACAGTAGCAACAT GCATCGACGAAAGAATTTGAAATGATAGGATTCGATATATATATATCCTGACTGAGA TATATATAGAGCATCTCACTTCTCGTGTGTCAGGATATATAGGTGTGATTTAATTCTA TTATTACTAACTGCTATGAATGGTAGTATTACGGAATCAGACGTGCTTTCTGCTGGT GACAGACTGAGTAGGTGTTGTCTTGTTCCTGCATATGTGCGTAGGTGCTGAACGTCC ATATGTATTCACGAGCTCAAAGTCAAACCACACATAGTATACTACGCCTTGTCTTTC ATTCAGTATACTAATTGTCCATATGTATTCACGAGCTAGCTACGTAAGTACCGCCAC GATCGACGTGTATATAACATACGTATCCTTTTGCGATGATATTTTTCTGTATATATAC GGCTATATTAATTGTCCGCCCTGTAGTTTGCACATCCAGCGAGTCCAAACTAATCCG GCCAGCCAATCTCTGGTTTAAATACATAGATATGTCGTAATCGTAATAGAATGCGTG CATGTAGTCGACCTTCCGTCATGGACACAACTGGCATGTCTCTGACGAATGTGGCGT GGTACAGACGGCGCTCCCTACAACTTTTGTAGTATGTATATCTCATTGCATTGTCACT AAGATCTTATTATTATTATTTATTCTTGATGAATGGTCAAAGCTGCAAATTAAAAAA AATCATAGTAGCAAAGTGCAGGTACATTGATATGGTTTCCATTTATAAGTATAGAGT ATAAAACATAATGATATATGTGTTACGTGGATTTGGAGCTCACAACCAAAGTTCAAA TCCCACTTGTACAATAATTTTAGATTTTTATAGATATCGACAGCGTCAGCGTGCATCA TCGTCCTGTATCATGCATCCAGAATAAATGATACATGTGTTATGTTGGTTAGTTAGTT GAGTATAAATGTGGATTTGGAGCTCACAACCATATAGTTCAAATCTCACTTGTACGA TAATTTTAGATTTTTTTTTATTTAAATATGTGGGAACACCACGACCGTTCATAGATAT TGACAGCGTCAGAGTGCATCATCGTCCTGTATCATGCATCCAGAACAAATGTTTTAT TTCTCTGTTAGTTGTTGCTGGATCGAACTATGGGCCTGTTTGTTTTGGCTTCTGGCAG CTTCTGGCCACCAAAAGCTGTTGCGGACTGCCAAGCGCTCAGCTTTTCAGCCAGCTT CTATAAAATTCGTTGGAGCAAAAACCATCCAAAATCAACATAAACACATAATCGGT TGAGTCGTTGTAATAGTAGGAATCCGTCACTTTCTAGATCATGAGCCCTATAAACAA CTTTATCTTCCTCCACACGTAATCGTAATGATACTCAGATTCTCCCCACAGCCAGATT CTCAGAAAAGCTGGTCAAAAAAGCTAAACCAAACAGCCCCTATAAATGATGCGTCT CTATCTTTTGGTCGTTGATGGACGACGCGTGCGCAGGACGTGATGTTTGGCGGGACG GAGACGGTGGCGTCGGCGATCGAGTGGGCGATGGCGGAGATGATGCACAGCCCCGA CGACCTGCGCCGGCTGCAGCAGGAGCTCGCCGACGTCGTGGGCCTGGACCGGAACG TGAACGAGTCGGACCTGGACAAGCTCCCCTTCCTCAAGTGCGTCATCAAGGAGACG CTCCGGCTGCACCCGCCGATCCCGCTGCTCCTGCACGAGACCGCCGGCGACTGCGTC GTGGGCGGCTACTCCGTGCCCAGGGGCTCCCGCGTCATGGTCAACGTGTGGGCCATC GGCCGCCACCGCGCCTCGTGGAAGGACGCCGACGCGTTCCGGCCGTCGCGCTTCAC GCCCGAGGGCGAGGCCGCGGGGCTCGACTTCAAGGGCGGCTGCTTCGAGTTCCTGC CCTTCGGCTCCGGCCGCCGCTCGTGCCCCGGCACGGCGCTGGGCCTGTACGCGCTGG AGCTCGCCGTCGCCCAGCTCGCGCACGGCTTCAACTGGTCGCTGCCCGACGGCATGA AGCCCTCGGAGCTGGACATGGGCGACGTCTTCGGCCTCACCGCGCCGCGCGCCACG AGGCTCTACGCCGTGCCTACGCCCCGGCTCAACTGCCCCTTGTACTGACGCCATGCG CGGGCGACTGCCATTACCATCGTCCCCTCGGGTGGGTGTGGGGTACGGGGGTAGGA GTTTGGTGCCTTTCTCTGTCGTCTTTTTTCCCTTTAAAAAACATGCCTGGTCGATGTTG TAGGGTGTGTTGTAGACAGCCATTATCAATTTTTTTTATTCTCAATTCTCATGTTGCG TGTGCCTAGCTAGGAAGTAAAAGGATCAAGCTGTGGCTGTACGGGCTCATCAAACT ATATGAAAAAAACATGTCAGCCACAGATTCCTGGAACTTTCATGCACGGCAAATTTC ATAGATATTTCTTTGGCACCTCTTATCTATCGTGTATCCCATATATATTAATCTCTGT ATTAACAAAATTGGAGCTTCCTCACGTACGCACCCAGGCACTGCTCACCACCGTTTA AGATACAGCTCAATAATGTTCCTGCACTGTTTAATATTGTATTGTATATCATTGTTGC CCGCGCTAAATATATGTTTACTGTTTGGCAACATATCTAGTGCACATGGACTGCTGG TGCACATCATACATATATTAAATCCTACCCTTTCATCTAAGATCAAGCGTCTCACAAT TATCTCACCTCTCTCTCTCTCCTGCCTTTTTGCTAAAATGCCCTCCCGCCTCTCCCACT TCCTACCATGTCGTTTTTTAGAAAGCTGCATGGCGGACTGTTTATCTGCTTGATCAGA ACGGCTGGGAGTATGCAGGATTCAGCCGTGCCAGATTTTTTTGCTTCCTCCGGTCAA TAGAATATGAATGTATGGTGTAGATGAATATATAGTGGCGTTTTCATGCACCAACAG AATGAACGAACAAGATCAATGAGCAAAGAAACTGACTACATCTAGTACATATATCC CCTATTGTTCTCTCTCCATCTTTCTCTGTCTCTCAAATAAAATATGAGATATCAATAA AAAACTAAATATGCTCTAACTTTTTGACCAATGATTTGAAGCCGCAGCTCAAAAACA AAAAATAATATGCAATAGATCAGTAAATCTTTCATTGCACCATTTTCGATCACCATA CCTATGTACCACAGTCTTGTATATGATGACATTGTAAGATACATGTCATCCAACAAA GAGACCGTTGATTCTAAATCGCCCTGGACAGAAAATCCATAAATTAGAATTACAAA ATTAACAACATACGAAGGTCATCCGTGGTGATCGTGACGGCGCCAAGTGATGGTGA TCGAGCCTTTGTAGGCTCCCTCTTTGGCGAGTGTCTGCTGGACTAGTGGTCGACAAA GAAGGCTCCCGTGGCCCCCTTTGCTAGTCTCTTTGTCGAGTGCTCCAAGAGGCACTC GGCAAAGTCTCTCTCTTTGCCGAGTGCTTACTCGACTAACGGTCGGCAAAGGGAGCA CCAGTGGGCCCCTTTACCAGGCCCTTTGTCGAGTGCTCCAGGAGGCACTCGACAAAG ATTGTTTTTTTGTCAAGTGTAACACTCGACAAAGTGACTAGAATATCTCATTTTATTT GTTTTTATTATTCCATCCAAACAAACAAAAGATATATCACGAAATTATCACATATAT ATCATAGATATCACAAAAATCATCGCATACATCGTACACGCCACATATCTCACAAAG ACCACAAATCTCACAAATATCACCATATCANNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNCAGGTATTAGATATTTCGTCACAAGTTTCAGACAC AAACATAAGTCTCCATCACTCACAAACATTTGTCTCAAGTATCTCACAAATTATTAC CAATGACAACAAGTTCAGACCAAGTTATCTCATAAAGTATTAACAACACCAATAGA CATAAGATCGTGTGCACAAAGTATCTCGGCAAGGTGGAGGGCTGGACTGATTCGGC GATAGGTTGGACGATCCATGAGGGTTGTTTGATGCCAACGTTTGTCCCTATACAGAG AAGAGATTGCATGTGTGAGACCAGATAAATATATATCATGCAGGGCTGGAACTTTG ATACTCACATAAGTATATAACTGAGTAGGGTTAGCTTGAGGGAACAACGAGGTGGT GGAACAAAACCATGTGCGGCACCAAGGCTCTGCATGTACTGAAACATCTTCGTCATT CTTGATCCGCCAAGCGAGCTGCCTGCTCCGCCTCCCACTCCGCCCTCATCCTCGCCTC CATCTCCATCTGTTCCCTCCTCTCTTCTTTTAGCTAGGCCTGTAATATTTCACCCAATG TTATAATAATGCAAAGAGAAGGTAT SEQ ID No: 101 >Maize_B4FWF9 TAAAAAAAACCGCCAGTGGAAATAGCATTTCCACTGACGGTTTTCTTAAT AAAACCGCCAGTGGAAATGCTATTTCCAGTGGAAATGGCGATTTTACTGGCGGTTTT AGAATAACCGCCAGTGGAAATGGCGATTTCCACTGGCGGCACTGAAAAACGCCAGT GCAAACAGCTCTAGAACCGCCACTATAGAGCCTCTGTGTACTAGTGTTAAAGTAAAA TCCATAATTTTGTAGGATCAATATCCTTGTTCCCATAGTCAATTGTGGGAGTACTCCT TGTCTCCTACTCAATCCACTAGTAGAAAAAGGCTTAACACCTGCGGGACGATATATT TTTACAGACGGATCCGGTTATCCACCGACTGTGCTATTTCTAGTGGCGGTTTTCTTAA GGAACCACCACTAGAAATCATTTTTATCCTTAATTTTTCGAATTTTTCAAACGACCTC GTATGACAAAACCACCAAAATAAAAGTTGTAGATCTCTAGAAGTTATGAAACTTTGT AGTTGACAACTTTTTTATTTGAACTTATTTCGGTTCTCAAAAATTGAATCTAAGTATG TCAAATTTAAAATTCAAATTTTGCAAACTACCTCGGATGAAAAAAGTGTCAAAATAA AAGTTGTAGAACTTCAAAAGTTATTTATCTTTGTAGTTGACAACTTTTTTATTTGAAT TCGTTTAGGGTCTCAAATAAGCAATTTACACTCAAATGGTTGTAATATGTGGAGAAA ACAACTACAAACTAGACACAAAGCATGTCATAGACGGAGTGGTAGTGGAGGGTACG CGCGAGGTCGACGGGTCAATTACTAACAACCGCGTAGCGCGCGAAAAATGCCGTGA CTTGCGACTTCGGAGACGGGCGGGTGGGGTGGGCCTAATAAAAATAAATTTTTTTAC TATTTTTAAAATCTGTTTTATGTTTTCTGGAAACGATTTGCACTGGCGGTATTATTAC GTCGATCGCCAGTGAAAATCGATTTTCACTGGCGGTTTTATTATGTCGACCGCCAGT GAAAATCGATTTTCCCGCCTGTAAAAATGATGATTTTTACTAGCCCCCTAGCACTGA CGGTTACGATAAACGCCACTAAAAATAGGTTTACGACCGTCAGTATAGATCTTCTCT ATACTAGTGATATCCCTTTCTCATGTAACTCCATTTCAAATGAAAATAAAGAACAAG TAGAAAAAAAAATGAAAGAGACCCAATTCTTGTCACCATTATTAGGCACAGTTAAC TGATCGAGTTTTCAACCCAATGTATCCCTGGGTCCTCACCTAGAGATGGCAATGGGT ACCCGCGACCCGATACCTGATGGGTATTTACTCCATTAGGGTATGTATGTGGGCTAA ATATTCTACCCGTGGGTCTGTTATTGGGCAAAAATCTTCACCCAATGGGTAAACGGG TATTAGAACGTTCCGCCTTCACCCATACCCGTTAACCCGTGGGTATAAAATACCCAA TATAAACTTATCCGAAGCATGAACTTGGACTTTAGTCATCCAACTTTTTTACTATTTA ATAACAATTTAATGACCATGTAATGGAACATGTAATGTGCTATGTAGTACTATCATA GTGTTACTACTTTATCCAATTATCTTTGGTGTGTTGAATGGATGGTTAAATGATGCTA GAAAATTTTGTAATGGTATTTATATGGATATACTTGCCATTTGTATAGTATAATTTTT TGATAGTTGTTTAATTTTTGTGGGTACGGGTGACCCGATGGGTGACCCATACCCACA TGGGTATGGGTATGGGGGTAAATCTATACCCGCCAGTGTATATGGGTGACCCGGTGG GGTTATTTTTGTGTCGTGGGTATGGGTATGGGGTAGTAATACCCGGTGGGTATTTAC CCATTGCCATCTCTATCCTCACCTACTCCTCCGGCTATATATAAAAACCGTGCACCTC CCCCCTTGTCCTCAGCTCTACTCAAAGAGCGCTCTACCAGTACAACTACAACCACAC TAAAACCCAAACAAAAAAAAGGAAGCAGGTGCTGCCGATATATCGATTGATCGATC ATGGCGGCGGCCGTGGCCAATATCGGCATGGAGTGGCTCCAAGACCCTCTGAGCTG GGTGTTCCTGGGCACGGTGTGCTTGGTGGTCCTGCAGCAGCTGCGACGTCGGCGGGG CAAAGCGCCGCTTCCGCCTGGGCCGAAGCCGCTGCCGATCGTAGGCAACATGGGGA TGATGGACCAGCTGACGCACCGCGGGCTGGCGGCGCTGGCGGAGACGTACGGCGGG CTGCTGCACCTCCGGCTGGGGCGGCTGCACGCGTTCGCGGTGTCGACGCCCGAGTAC GCGCGCGAGGTGCTGCAGGCGCAGGACGGCGCGTTCTCGAACCGGCCTGCGACCGC GGCCATCGCGTACCTGACGTACGACCGCGCGGACATGGCGTTCGCGCACTACGGGC CCTTCTGGCGGCAGATGCGCAAGCTGTGCGTGATGAAGCTGTTCAGCCGGCGGCGC GCCGAGACGTGGGCGGCCGTGCGCGACGAGTGCGCGGCGCTGGTCCGGGCCGTGGC CGTGGGCGGCGGGAGCGGGGGCGAGGCCGTGAACCTGGGCGAGCTCATCTTCAGCC TGACGAAGAACGTGACGTTCCGCGCGGCGTTCGGCACCCGCGACGGCGAGGGCCAG GAGGAGTTCATCGCCATCCTGCAGGAGTTCTCCAAGCTGTTCGGCGCCTTCAACGTG GGCGACTTCCTACCGTGGCTGGGCTGGATGGACCTGCAGGGCATCAACCGGCGCCT GCGCGCCGCCCGCTCCGCGCTGGACCGGTTCATCGACAAGATCATCGACGAGCACG TGAGGCGCGGGAAGAGCCCCGACGACGCCGACGCCGACATGGTCGACGACATGCTC GCGTTCTTCGTCGAGGCCACGCCCGGCAAGGCGACGGGCGCCGCCGCCGCTGCTGA CGGCGGCGACGACCTGCACAACACCCTCCGGCTCACGCGCGACAACATCAAGGCCA TCATCATGGTACGTACGTTACGTATACACACACGTCGTGCTGTGCACCATCCCTCGA TCTGACCTGCTGTCAGTCACGCTAATCACGCCAAAACCGTCCGTTCCGAGTTCCGAC GCCGGGAGGACTGGGTGCCGGCCGGGGTTCGGGCCTCGGGAGCACTGAATCAAAAC GCTTGGCTGAAGAAACCCGTAAACAAAAATACTTACTATATATATACCTAAAATGTG TGACGACGTGTGATGTTTGACAACCAACCAATCAGGAGTGCTTTGCGTCTCTGCATG CTGGTGACAGGTGTTTGTCGTGTTCCTGCATGCACGCAGCACATGTGGATCTCTTCG CCCGCCACGGAGCTAGATTAAGTCAGGGCCACGTGTGCGTAACTCGATCTCCAGTA GTGCATTTTTTTCTTCGGTTTGGAGTTCTCTTCTACCCCGGCCGGCTTCTACGTTGAC AAGCTCCAACCGGCCGGCCGGCCGGCTTCCAGAAAAGCAGTACGTGAACGTGACGT TCGGTAGGTGTACTTGTTATTTGTTTGTGTCGTCCTCCTTGGTGTCTGGAGATCGAGT CGATTAGCCAGACAGACCAGACGTAGCCGCGCACGGTCGGCTTGCTTGTGCATGGT GAGACACGTTTTCTCTTTTTTGTTCATACATGCATGTAGTACTGTGCGCATTTAATTT GTGGCCATGCTTATGAGTCGTCTCACACTAGTACTGTACGCATTTTTAATTTGTGCGT TGGTGGATTTTTTTTCTCCCCATATATCACGACACGACGCACAAACATTTGTCTATAG TCCAACTTTGCGCGTGACGTAAGTCGGTCGGTCGTCGTACAAAGTTTGGACGGCCGG ATACCCTGCATCGATCGTTCTCCACCCTATATACGGAGCTGAAAGTAGGTAAACGTG ATGAAAGCATCCGAGTTTGATCGAGCTAGCCAACCATTGGAGACCATGCATGTCACT TTTCGGTGCATTTTTTTCGTCTAAGATAGCTCTGTCCACCTTGGTGCCTCGGTGCGTG CATGTCACCTTCCAAAGTATATAAAAAAAACACATGCATCACCCATTTTCTGCAGTA TATATATAACCGCGCTAGCTGCCGTAAATATCTTGCACAATTAAACCGTCATGATTT CGCTTGTAATTAATAATCTAGCATTCTAGCTTCCGTCATGGGCACAACTAGCTAGCA TGTGCATATATGACTGATATGATCATGTGTGGCGTGGTGTAATTAATATTCACTAAA AACATCATAAATAAAGGGTAATATGTACCTCACCATCGCGTCGTTATGTATTTTGTT GTTTTTTATGAGCAGTCAAAGCTGTAAACTAATAATGATGTATGGACGCCGCATGCA GGACGTGATGTTCGGCGGGACGGAGACGGTGGCGTCGGCGATCGAGTGGGCCATGG CGGAGATGATGCACAGCCCCGACGACCTGCGCCGGGTGCAGCAGGAGCTCGCCGAC GTCGTGGGCCTCGACCGCAACGTGAGCGAGTCGGACCTGGACAGGCTCCCCTTCCTC AGGTGCGTCATCAAGGAGACGCTCCGGCTGCACCCGCCCATCCCGCTGCTCCTCCAC GAGACCGCCGACGACTGCGTCGTGGCCGGGTACTCCGTGCCCAGGGGCTCCCGCGT CATGGTCAACGTCTGGGCCATCGGCCGCCACCGCGCCTCGTGGAAGGACGCCGACG CGTTCCGCCCGTCGCGGTTCGCGGCGCCCGAGGGGGAGGCCGCGGGGCTCGACTTC AAGGGCGGGTGCTTCGAGTTCCTGCCGTTCGGGTCGGGCCGCCGGTCCTGCCCCGGG ATGGCGCTCGGCCTGTACGCGCTGGAGCTCGCCGTCGCCCAGCTCGCGCACGCCTTC AACTGGTCGCTGCCCGACGGAATGAAGCCCTCGGAGATGGACATGGGCGACATCTT CGGCCTTACCGCGCCGCGCGCCACGCGGCTCTACGCCGTGCCTACGCCCCGGCTCAA CTGCCCCTTGTACTGACGCCCTGCACGTGGCGCGCGGGGACTGCCATTACGCATGCA TGCGTTTGGACTTTGGTGTTCATCCCTGGGGTGGGGCCGCCGTGGGGGAAGTTAGGA GTTTGGTGGCTTTCTAGCTCTGTCTTCTTGTATTCTGTTTATTATAAATTTTCCCAACC CTTCCATGCCTGATCGATGTGCGGTAATAATTGTTAGAAAATGTGACATTTTGTATGT AATCAATCTATGGGGTGCAATTGTTATCTCGTCAAAGGACACACCACTCGACTTGCA CCCCTTCATGTATATATATACATACACGAACATCCCCTGCAATAAAGAAATCGCTGT CACTTTCTTTCGAACTCCTTTCCACTGTTTTACAATATGTTATCAACATGTGCTCGCG AGAAAATAGTGAGAAGAGAAAAATGCTCGCTGTTTTGGAGAAGAACGGAGGCCCG GCCTCAAGATCGACGAGAAATATGCATCATATGATCAACTCAACGGAGGATGAATT ATACATTGTGGACAGTTGTACCACAAACTCTATACTTAGAGAGATCAAATATTTTCA GACTCTTAAAAATGAAGATGAAAAAGTTTTGACCATCGCTGGATGCGATGCGGTGA TAGTTAGCTCTGGACAACTATTACCCTCTCCATGGGTACTAAAATTGTTATCGGAGA TGCACTATTGTATCCTGATCCCACTCGTACCCTACTAAGTTTTAGAGATATGCTATAG ATGGGTTCTATATTTAAACCCATGATGAAAATCAAGAAGAGTTTCTCTTTTTGACTA AGCCGGACAGATATGGCAAACGCATATATGACAAAATTTTATTACTCACGTCTGGGT TGTACTATACATTCATTAAGTACATTGCACATGTTGTTGCATATAAGGTGATTTTTCA AAATTGGTTATCGAGGCATAGGGATTATGATAAAAATCACAGGCAATTCTATTGGTC ATAATTTGTCCATAACAAATTTTCTTAAATCGAAAGATTTTATTTGCACTACATGTGC AACTGGGAAATTGATTTTGAGACCATCACATCTCAAAATTAAAGTTGAACCGCTAAA ATTCCTTGAAAGAATTTAAGTAAATATTTGTGGATCAATTACACCAACTTTCGGGCC ATTCAGATACTTCATGGTATTGATTGACGCATCTACTCGATGGTCACATGTGTGTTTA CTATCAACACGCAACCATACATTTATCAAGATAATGTCTCAAATTATCAAATTAAAG GCAAATTTTCCTGAACATCAGATTCAAACAATCCGGATGGACAATGCCGCTGAATTT ACATTTCAAGCATTCAATAATTATTGTATGGCACTGGATATTCAGATTCAACACTCG GTACCATATGTCCATAACCAAATGGTTTGGATGAGTCACTAATCAAGAGGATTAAAC TTATTGCAAGACCATTGTTAATGAATTGCAAATTGTCTTCGTCATGTTAGGGTCATGC AGTTCTGCACGCTGTCGATCTTATCGAACTATGACCTACTGCATATTATGCTACTTCC TCAATACAAATGGTACATGGAAAATCTCCAAGTATTTCCTATTTGTATAAATTTGGA TGTCGTGTATACATTCCAATCTCACCACCTCAAAGAACAGTCATGGGCCCACACAGG AAAGTGGGGATCTATATGGGATTTCAATCTCCATCGATCATAAAATATTTAGGACTC TTGATAGGAGCCCTAAGGCAGCTAGGAGCCGTTGAAGCTCCATTTGGTAGCAAAAG TTGCCTTCTGTACGTGGGCGCACCGGACATGAATAGTGCACGATCTCCTTCCTTATTT AGTGAAGCCGACCGTTGCAGCCAGGGTCCTCTTGGCATACTGGACAGTCCGGTGCG GCTTGTTGACCGTTGGCGCTGGCCACGTGTCGCCCACTGATTTCGCTGCCGACCATT GGCACGGGCGCTGCTGGCTCACCGGACAGTCCGGTGCACACCGGACAGTCCGGTGA ATTTTAGCCGCAGTGTCCCCAACAAATCCCGAGAGCAGCGAGTTCACCGACGTGCTC CAGTCTGGGCACCGGACACTGTCCGGTGCGTACCGGAAAGTCCGGTGCACCCGTAG GCTGGTGCAAGTCTGGCTTTTTCAGCCAAACTTCTTTTGCTCCTTTTTGACTTGACTT AACTGAGTTCCTGGTGCTTAGACAAGCATGTTTAGCTCATAAAACATATGACTAAGT GTCTAGAACTTACCTTCATACTTGATACATCTAGATTGCTTCATATACTTTTGCTCAA CATCATGTCAGTTCTCACATAGTGTGTTGTGCATCTAATCATCAAAACAATATAGAA ATGGTCCAAGGGCAC SEQ ID No: 102 >Soybean_G3E7M3 ATGATCATTCACAATTAATCACATGACTAATTATGATAATTAATCACATTC TTGGTATGTGAAATAAAATAGTATTCTTATTTTATGAGCAAGTTCCACATTCATAAA ATAATACTCCATTTTTATATTAATTATATTCTTGGTGCTAGTAAAAAATATAATAATA TTTCACTAAAATATTTATTTGATTAAATTAAATTCTCTAATTTAATTATCAAATAAAT TATTTTCTTTTGTAAAGATTAGAACACTCGTTTATATGTAACCCCGTAGGTTTAATAC TAAACTGGTAGTAAATTAATCATAATTAATTTACTAATTAAGGAAGACGTCTAGCAG CAGTCCATTAAGTCCAAGCATGAAGTAACATCTTTTACCTTCAAGAACAATTGAAGA ATAATGTAATATTTCATTTCATTGTTGTTTATAACTCAAGGTTAATTCTAAAGTATAA TATTATTATCAAACTCTAATAAGATAATACATTTAATCAATGAATGACTTAAGAAAC TCTTTTTTCTTTCATTCAATTGTCATGTCTAAGATCTTAATTCTATCATAGAGCTCAAA CTTGTTACCTAGAGTTGGTGGATTCCTTCTTGATTAATAATTAATTCTATAAGTATTT AATCATATCCAATATTCATTAAACTAGTGCCTTAAGACATTAAGTGTCTAAAATTTA AATATAACAAATAATTTGTTAACTATTATGATAATCTCATGTCAAAGGAAACTATTA TATTTCTTCTTGAGAACTTTCTATTGATATATTAAGATAATATTAACTATTAGGAATT TTCAATTAAGTCATTTCAATGATGACATCCATATATATATCATCTATATATGCAATTT AATAAATAATATTTATTAATTTTTATCTAATAAAGACTTTTACATATATATTAATTTA TCTGAATTATTGATGTCTTATTCATAATAATCTTACGATTAAGAATAATTTATATTAA AATTATAAAGGAATTATTTATCATTATCATAATCTTGATCATGATAACAAACCTCTA ATTTTAATTTTGGACTTGTCAATTCTACTGGAATTTTTTTAAAAAAGATGAGTGCATT GCAGTATGGCAGAAACCTTCTCACAATAGCTGCTATATTTTTGCATGTTAGCTAGTG ATTTTAATAGTTAGTTTTGGGTGTTGGTAGTTTTCTAGTTGTAATTTTTGTGGATTCTT TTTGTTGATATATTCCTTAAACATGATTTTAATAGCCTTATCTTTTAATAATTGTGCTG TAAATGTACTTTAAAAAATTATATCTAAAACGGATCGATTAGAACTTTTTTCATTAA ATTAATTTTTTTAAAAAAATACATTCTAAGACAGTTTTTTTAAAAAAACCTTCTTAGA AAGTCTATTTTTTAAGATAGTTTTTGGAAAAATCATCTTAAAATCTTCAAATTTTTTA ATTTTTTTGTTTTAAAAAACACATTCTAAAATGGTTTTTTGAAAAAAATCGTCTTAGA ATCCTTATTAATTTTTTTTATTTTTTTAAAAATGATTCTAAGACGATTCTTTTAAAAAC CTTCTTAGAAGGATATTTTTTTCTAAGATGATTTTTAATGGAACCGCCGTCGAAAGTC AAGATTTTCGATGACATTCGCTTCGAAGACAATCTTGAGTCGTCTTTGAATGTAGTT ATGAATCGTCGTGGAATGATGCTTTTGCAGTAGGTTACAAAATTATTTATCATATAA TATTAAAATATATAATAAATATTTACTATATTTATTAAAATCTATTTATTATTTAAAT ATACTTATTTGTTAAATATTTATAATATATCAAATATGATATAATACATAAGTATATT TAATAATAATAAATATTTGCCTATAACATGAACACAGCAAATTAGAATATATTTTTC TTTTTGTTAAGAACCAAATTAGAATTTAAGAAACTAAAATCATGCAAATATAAAAGT TTGGAAACTAAAATTATATAATTAATGGTCCAGATTTTTGCAAATAGGTAATCCTGA AGCTGCAAAGGCAGGAGATCAGATCCCTGTCTCCGTAGTATCTTATTATATTTAATA TTTAATATATAATTAATTAGAACGTCCACGTTTAATAAGTATCTTGCAGGAAGAAGA AACTGAAGTGTATATATAGGTCCCCATGACACTCCCCTCAACTCAGCAACAACAACA CTTACTTGAAGTTGTGCTATTCAATCCCAAAGCCACAGAAATAATATTATTCAGATT TTAGAGACTGAAAACATCATGGCCAACCTCGACCTCGACCCATTCCAGACAAGCAT CTTAATCCTCGTCCCAATAGCACTCCTGGTGGCGTTACTATCTCGTACTCGTCGAAGA GCACCCTACCCACCAGGCCCAAAGGGTTTACCAATCATAGGAAACATGTTAATGAT GGAGCAGCTAACCCACCGCGGCCTCGCCAACCTGGCCAAACACTACGGCGGCATCT TCCACCTCCGCATGGGGTTCCTCCACATGGTCGCCATCTCCGACCCCGTCGCCGCGC GTCAGGTTCTCCAAGTCCAAGACAACATCTTCTCCAACCGCCCAGCCACCATCGCCA TCAGCTACCTTACCTACGACCGCGCCGACATGGCTTTTGCCCACTACGGCCCCTTCT GGCGCCAGATGCGGAAACTCTGCGTCATGAAGCTCTTCAGCCGCAAGCGCGCCGAG TCCTGGCAGTCAGTCCGCGATGAGGTCGACGCCGCCGTTCGCGCCGTCGCTAGCAGC GTCGGAAAGCCCGTCAACATTGGAGAATTAGTGTTTAACCTCACCAAGAACATCATC TACCGCGCCGCGTTCGGGTCGAGTTCCCAAGAAGGCCAGGACGAGTTCATTAAAAT ACTGCAGGAGTTCTCCAAGCTCTTTGGCGCGTTTAATATTGCGGATTTTATACCCTAT CTCGGGTGCGTGGATCCACAAGGTTTGAACTCGAGACTCGCTAGGGCACGTGGCGC GCTCGATAGCTTCATTGATAAGATCATCGATGAGCACGTGCATAAGATGAAGAATG ATAAGAGCAGTGAAATTGTTGATGGAGAAACGGACATGGTGGATGAGTTGCTGGCG TTCTACAGCGAGGAGGCGAAGTTGAACAATGAATCGGACGATTTGCAGAACTCTAT CAGACTCACTAAGGATAACATCAAGGCTATCATTATGGTATGGATTCGTATTCAAAT TAATATACTATCTTATTCTTATCAGCCACCTAATGAAATTGATAATTCGTGGCATGAA AGTTTACGCATTTGACTATTTCATTAAGAGTTGTTAAGAACACGGTTTTTCTCAAAAA CCACGTAAGCACGTACAACGCCAATACCTCGATGATTGGATGTCTTTTGGAATCCTT TCTAGTTTAATGAGATTTTTTTTAATTGAGAAATCTAATTTCTTACATGATTTTTTCAA TGCAAGAAGAGAAGATTCAGATCAATAAGGTTTATGCATGATTATAGAAAAATTGG ATGAATTTAAGCTTTTAAAAAGTTTATGTATTTTTTTAAAATTTAATGTAATATTGAC ATAGAGTATTACTGATTTTATTAATGATTAATTTTCGTTAAAAAATTTGGTTAATAAA ATTTCTTATTTTAATCAGATTTATTCTGCGTATAAAATTTAAATTTAAAATCTTACTT AAACTTTTGCTTAATTAATTTAACAAACACTTCTAAAAAAAAGAAAACATATTAAGA ATAACAGGTAAAATGCTTTAAAAGTGGTTCTACCTTGAGTTTATAGTGAATATGTGT AAAAATATCCACTTTTGTATATCAAATTATAATAGATGCTTTTATAAAATAAAATTT AACTTTCTAGTATATTTTCTTCAAAGGATGGTTAATGTTATTTTTAAAATTTGAATTT AGATCTCTTTTAAATTGATTGTATCTTTTTTATAATTTGAATATTTTTTAATTTATTTA AATGTTTTTTAATTTTTACCTTTTAGATTTTATTTAAATTTCAAAATGTCAACATATGT TACATGAAAACTTGCTAAATACATAAGTGTTTGCATGCCCGTCAGTAATTTTGGTTA GTGAAGTTTTAATTTGTCAAAAGTTTATTTGCATGTCTAAGATATAAATTATCTATTT AATATTTTCTCAAATCATACAACCACCTCACATTTACATGTGATCATATTTAGTTTAC TTATTAAACTGATCAGAGTTCATTTAAAAAACAAATTGTCAACACTACAAAAAAAA AAAAGTCTCCAAATCAATTATGATTACTTATGCCGAAATTGAAAAAGTAAAAGCAG ATTTACTATAGTTATTATGGACTAGCTGGAGATGAACAAATAAAGTAGATAAGATCA TAAGATTGAGAATAAGATTTGGGAACACTAGCCACCAAAAATGCAGTGAGTGACTA TCCCAACGTGATCATAGTGGGTTTGGGTACGGTTGGTGTCATTTCCCCGTCCAAATCT ACAGCTTCTTCTCTTTATTTATTTTTTTCAATTAAAGTTTGATTTTAGAATGCAAAATT CAATATTGTGTCGTATGAAGGTGGTAAGTAAATAAAGAAAATTGATATCGGTGATG ATTGTTTGTTTGTGGTGTGCGTTAACATTACAATTTACACAGGACGTGATGTTCGGA GGCACGGAAACGGTAGCGTCAGCGATCGAGTGGGCCATGGCGGAGCTCATGAGAAG CCCAGAAGATCAAAAGCGGGTCCAACAAGAGCTGGCGGATGTAGTGGGCCTGGACC GTCGGGCCGAAGAGTCCGATTTCGAGAAACTCACTTATCTCAAATGTGCCCTCAAAG AGACCCTCCGCCTCCACCCTCCGATCCCGCTCCTCCTCCACGAGACGGCGGAGGACG CGACGGTCGGCGGTTACCTCGTCCCCAAGAAGGCGCGTGTCATGATCAACGCGTGG GCCATTGGGAGGGACAAGAACAGCTGGGAGGAACCCGAGAGCTTCAAGCCCGCCC GGTTTCTTAAACCGGGCGTGCCCGATTTCAAAGGGAGCAACTTCGAGTTCATTCCAT TCGGGTCGGGTCGCAGATCCTGCCCCGGGATGGTGTTGGGGCTCTACGCGCTCGAGT TGGCGGTGGCGCACCTCCTTCACTGCTTCACGTGGGAATTGCCAGATGGGATGAAGC CAAGTGAGATGGACATGGGTGACGTGTTCGGACTCACCGCTCCAAGATCCACGCGA CTCATTGCTGTGCCAACCAAGCGCGTGGTGTGCCCTCTCTTTTAAAAAAACAACAAT TTGGATCTTTTTTCTTCCTTTTTTTTGTATTTTCTTTTTATCCCTCAATTATACATAATC ATATTAAAATAATATAAAGGGAAAAAAGGCAGCTACACAATAAGAATGTGGGAGTA TTTGGAAGAAAAAAAAATTGTAAACAATCAATTATATGCATTTTGTTATTTTTGCCC CATTTCCGTTTTGATTCTTATATACGAGTAGAGTAATGATGGAGTCATTCTTTTTAAT ACTCTTTCTTAAAGACTTTTTTATGATTAATTATAATTCATTAAACAAATATTAATTT TGATTGATCTTGTTTTTGATTTAATACAAATAAGGAGAATGAATCATTAAATAAGAA CAACCAAAAATAATATTTTTAAATAAATTCTAATTAATCATAAAAAAATCTTAAAAA AAGAGTGTCAAAGATAGTACATCTCTCTTACATATTAACAGAAATAAAAGTGTACCG GCCATTAAAAGAGTCAGTAGCTATGGTGGCATAATGGCATGTTACCAATAATTGTTG TGACAAATTAAGTTGCGCGATTGTGGTAATTTAGTTTCATTTTTTGTCTTCGATGCGA CAGTGAATAAATTACCACAAGTGCGTACCATGGGGAATTTATTTTTGTTGCGGGGAT TTCACATCAAATCACGTATTTAACAGTGGTAGTATTGTTTTCTAAGTGGGTTCTAGAG GCGAAGTTGATGACTTTTGAGTGTGAAAGATTGATAGGAAAGTGTAGCTATTATTAG AAGGGGCGATACAAATCAACAAGTGTCCCAAAAATCAACATCGCTCAGGTTGATTA GTCCTGAAAATATATATAACGATGTTGAAATGCATGGACCCTGCGCTATAAATTGCT TTCCTAATTGAGTTTGAGCGTGGCAATGGCAATGGCAAAAGAATTTTAAGAATGCTT GCTCACTGACGCTGCTTCTAATGGGAAAGACTTTTTCTACATGCATATGTTTTAAGA AAAAGAATTTATCGTATAAGAAAAAATCTAGGGCGAAAAATAAGTTACATTAAAAG CTTGACATGAATTAAGGGTGCCCATGTGAGTCAGCTGTTAACATGAGATGAAAATTT ATTGAACTTATCTTGAATTTATGTAGTTAATTAGATTTGTCGGTGCGTATTCCGAATA TGGAAAAGTGGCAGTAATTTGTTTTATATAAGAGAAATGATTGAAGGTGCAGCGTG GAAAAGTATATTTCAAAGCGTATATGTAATGGCGTGTAATATCGAAACAGAAAGAT GAATGAGTAGAAGCCGAAGAGTTTAGGTGAGTGTTAAAAAGAACCAGGGGCCATTC TCTGATTTTATTCAAATTCAATATCAGAAAATGACCCTCGTTGGGCCCTTATTTTGTA TCCATAAGCAAAGTCAACTGAGGAACTCTTCCGGGGTTGCAAAGCTTTAACTACTTT GTGATACCAACACAGACTACACTTGTATTTAAGGTCCGTTTGTTTGACTATTTTGCTT CTGAAGAAGAAAATTCTACCACTCGTTTCACACAATGCTTCTTGGTCAGCGTGAACA CTCGTTGTTTTCAGACGTAGAATCTCAAACAAGTTAAATCGGCAGATTATCATTTGC TTATGTGTGTCTTGTTAAGGTGTGAAGTTATTACTCTTTACTAGACAGTTAGACATAA ATATTTTCAATTTGCTGGTTCAATCAGACAATGTGAACAAATTCCATAAACAATCAA ATTTTGATCACCATTAACCTAAAAACAAAACAATAAATGAGGACCGCCCAATTTTGT GTTTAGTTTATTAGCTAAATAAACCCGTGGAAGGCCTGCTTATGGAGTCATGGTCCC ATGCCAAGATTTTCTTTTGTTGAATTTAGAGTAGATTTGAAGAGAGACAGAGAGAGA GAGAGACAACCGAATCTTTTGGAGAGAATGCATAAAATGAAAAAGGCTTTCTTATT CTTGTAAAATGCAGTACAAAGATTTTGCATATCATTTATATGAATAGTAGGGTCAGC CCAACAAATTTTGTTGGACTAATACAAATTCTATATTTTAACTAAGGAACAATTAAA CTAATTCTTTAAGACAAAAGCACATACTAGTACTAGTTATAATTGTCATATGTAACA GATGATGAAAAAATTATAAA SEQ ID No: 103 >Soybean_I1J8P0 ATGATCATTCACAATTAATCACATGACTAATTATGATAATTAATCACATTC TTGGTATGTGAAATAAAATAGTATTCTTATTTTATGAGCAAGTTCCACATTCATAAA ATAATACTCCATTTTTATATTAATTATATTCTTGGTGCTAGTAAAAAATATAATAATA TTTCACTAAAATATTTATTTGATTAAATTAAATTCTCTAATTTAATTATCAAATAAAT TATTTTCTTTTGTAAAGATTAGAACACTCGTTTATATGTAACCCCGTAGGTTTAATAC TAAACTGGTAGTAAATTAATCATAATTAATTTACTAATTAAGGAAGACGTCTAGCAG CAGTCCATTAAGTCCAAGCATGAAGTAACATCTTTTACCTTCAAGAACAATTGAAGA ATAATGTAATATTTCATTTCATTGTTGTTTATAACTCAAGGTTAATTCTAAAGTATAA TATTATTATCAAACTCTAATAAGATAATACATTTAATCAATGAATGACTTAAGAAAC TCTTTTTTCTTTCATTCAATTGTCATGTCTAAGATCTTAATTCTATCATAGAGCTCAAA CTTGTTACCTAGAGTTGGTGGATTCCTTCTTGATTAATAATTAATTCTATAAGTATTT AATCATATCCAATATTCATTAAACTAGTGCCTTAAGACATTAAGTGTCTAAAATTTA AATATAACAAATAATTTGTTAACTATTATGATAATCTCATGTCAAAGGAAACTATTA TATTTCTTCTTGAGAACTTTCTATTGATATATTAAGATAATATTAACTATTAGGAATT TTCAATTAAGTCATTTCAATGATGACATCCATATATATATCATCTATATATGCAATTT AATAAATAATATTTATTAATTTTTATCTAATAAAGACTTTTACATATATATTAATTTA TCTGAATTATTGATGTCTTATTCATAATAATCTTACGATTAAGAATAATTTATATTAA AATTATAAAGGAATTATTTATCATTATCATAATCTTGATCATGATAACAAACCTCTA ATTTTAATTTTGGACTTGTCAATTCTACTGGAATTTTTTTAAAAAAGATGAGTGCATT GCAGTATGGCAGAAACCTTCTCACAATAGCTGCTATATTTTTGCATGTTAGCTAGTG ATTTTAATAGTTAGTTTTGGGTGTTGGTAGTTTTCTAGTTGTAATTTTTGTGGATTCTT TTTGTTGATATATTCCTTAAACATGATTTTAATAGCCTTATCTTTTAATAATTGTGCTG TAAATGTACTTTAAAAAATTATATCTAAAACGGATCGATTAGAACTTTTTTCATTAA ATTAATTTTTTTAAAAAAATACATTCTAAGACAGTTTTTTTAAAAAAACCTTCTTAGA AAGTCTATTTTTTAAGATAGTTTTTGGAAAAATCATCTTAAAATCTTCAAATTTTTTA ATTTTTTTGTTTTAAAAAACACATTCTAAAATGGTTTTTTGAAAAAAATCGTCTTAGA ATCCTTATTAATTTTTTTTATTTTTTTAAAAATGATTCTAAGACGATTCTTTTAAAAAC CTTCTTAGAAGGATATTTTTTTCTAAGATGATTTTTAATGGAACCGCCGTCGAAAGTC AAGATTTTCGATGACATTCGCTTCGAAGACAATCTTGAGTCGTCTTTGAATGTAGTT ATGAATCGTCGTGGAATGATGCTTTTGCAGTAGGTTACAAAATTATTTATCATATAA TATTAAAATATATAATAAATATTTACTATATTTATTAAAATCTATTTATTATTTAAAT ATACTTATTTGTTAAATATTTATAATATATCAAATATGATATAATACATAAGTATATT TAATAATAATAAATATTTGCCTATAACATGAACACAGCAAATTAGAATATATTTTTC TTTTTGTTAAGAACCAAATTAGAATTTAAGAAACTAAAATCATGCAAATATAAAAGT TTGGAAACTAAAATTATATAATTAATGGTCCAGATTTTTGCAAATAGGTAATCCTGA AGCTGCAAAGGCAGGAGATCAGATCCCTGTCTCCGTAGTATCTTATTATATTTAATA TTTAATATATAATTAATTAGAACGTCCACGTTTAATAAGTATCTTGCAGGAAGAAGA AACTGAAGTGTATATATAGGTCCCCATGACACTCCCCTCAACTCAGCAACAACAACA CTTACTTGAAGTTGTGCTATTCAATCCCAAAGCCACAGAAATAATATTATTCAGATT TTAGAGACTGAAAACATCATGGCCAACCTCGACCTCGACCCATTCCAGACAAGCAT CTTAATCCTCGTCCCAATAGCACTCCTGGTGGCGTTACTATCTCGTACTCGTCGAAGA GCACCCTACCCACCAGGCCCAAAGGGTTTACCAATCATAGGAAACATGTTAATGAT GGAGCAGCTAACCCACCGCGGCCTCGCCAACCTGGCCAAACACTACGGCGGCATCT TCCACCTCCGCATGGGGTTCCTCCACATGGTCGCCATCTCCGACCCCGTCGCCGCGC GTCAGGTTCTCCAAGTCCAAGACAACATCTTCTCCAACCGCCCAGCCACCATCGCCA TCAGCTACCTTACCTACGACCGCGCCGACATGGCTTTTGCCCACTACGGCCCCTTCT GGCGCCAGATGCGGAAACTCTGCGTCATGAAGCTCTTCAGCCGCAAGCGCGCCGAG TCCTGGCAGTCAGTCCGCGATGAGGTCGACGCCGCCGTTCGCGCCGTCGCTAGCAGC GTCGGAAAGCCCGTCAACATTGGAGAATTAGTGTTTAACCTCACCAAGAACATCATC TACCGCGCCGCGTTCGGGTCGAGTTCCCAAGAAGGCCAGGACGAGTTCATTAAAAT ACTGCAGGAGTTCTCCAAGCTCTTTGGCGCGTTTAATATTGCGGATTTTATACCCTAT CTCGGGTGCGTGGATCCACAAGGTTTGAACTCGAGACTCGCTAGGGCACGTGGCGC GCTCGATAGCTTCATTGATAAGATCATCGATGAGCACGTGCATAAGATGAAGAATG ATAAGAGCAGTGAAATTGTTGATGGAGAAACGGACATGGTGGATGAGTTGCTGGCG TTCTACAGCGAGGAGGCGAAGTTGAACAATGAATCGGACGATTTGCAGAACTCTAT CAGACTCACTAAGGATAACATCAAGGCTATCATTATGGTATGGATTCGTATTCAAAT TAATATACTATCTTATTCTTATCAGCCACCTAATGAAATTGATAATTCGTGGCATGAA AGTTTACGCATTTGACTATTTCATTAAGAGTTGTTAAGAACACGGTTTTTCTCAAAAA CCACGTAAGCACGTACAACGCCAATACCTCGATGATTGGATGTCTTTTGGAATCCTT TCTAGTTTAATGAGATTTTTTTTAATTGAGAAATCTAATTTCTTACATGATTTTTTCAA TGCAAGAAGAGAAGATTCAGATCAATAAGGTTTATGCATGATTATAGAAAAATTGG ATGAATTTAAGCTTTTAAAAAGTTTATGTATTTTTTTAAAATTTAATGTAATATTGAC ATAGAGTATTACTGATTTTATTAATGATTAATTTTCGTTAAAAAATTTGGTTAATAAA ATTTCTTATTTTAATCAGATTTATTCTGCGTATAAAATTTAAATTTAAAATCTTACTT AAACTTTTGCTTAATTAATTTAACAAACACTTCTAAAAAAAAGAAAACATATTAAGA ATAACAGGTAAAATGCTTTAAAAGTGGTTCTACCTTGAGTTTATAGTGAATATGTGT AAAAATATCCACTTTTGTATATCAAATTATAATAGATGCTTTTATAAAATAAAATTT AACTTTCTAGTATATTTTCTTCAAAGGATGGTTAATGTTATTTTTAAAATTTGAATTT AGATCTCTTTTAAATTGATTGTATCTTTTTTATAATTTGAATATTTTTTAATTTATTTA AATGTTTTTTAATTTTTACCTTTTAGATTTTATTTAAATTTCAAAATGTCAACATATGT TACATGAAAACTTGCTAAATACATAAGTGTTTGCATGCCCGTCAGTAATTTTGGTTA GTGAAGTTTTAATTTGTCAAAAGTTTATTTGCATGTCTAAGATATAAATTATCTATTT AATATTTTCTCAAATCATACAACCACCTCACATTTACATGTGATCATATTTAGTTTAC TTATTAAACTGATCAGAGTTCATTTAAAAAACAAATTGTCAACACTACAAAAAAAA AAAAGTCTCCAAATCAATTATGATTACTTATGCCGAAATTGAAAAAGTAAAAGCAG ATTTACTATAGTTATTATGGACTAGCTGGAGATGAACAAATAAAGTAGATAAGATCA TAAGATTGAGAATAAGATTTGGGAACACTAGCCACCAAAAATGCAGTGAGTGACTA TCCCAACGTGATCATAGTGGGTTTGGGTACGGTTGGTGTCATTTCCCCGTCCAAATCT ACAGCTTCTTCTCTTTATTTATTTTTTTCAATTAAAGTTTGATTTTAGAATGCAAAATT CAATATTGTGTCGTATGAAGGTGGTAAGTAAATAAAGAAAATTGATATCGGTGATG ATTGTTTGTTTGTGGTGTGCGTTAACATTACAATTTACACAGGACGTGATGTTCGGA GGCACGGAAACGGTAGCGTCAGCGATCGAGTGGGCCATGGCGGAGCTCATGAGAAG CCCAGAAGATCAAAAGCGGGTCCAACAAGAGCTGGCGGATGTAGTGGGCCTGGACC GTCGGGCCGAAGAGTCCGATTTCGAGAAACTCACTTATCTCAAATGTGCCCTCAAAG AGACCCTCCGCCTCCACCCTCCGATCCCGCTCCTCCTCCACGAGACGGCGGAGGACG CGACGGTCGGCGGTTACCTCGTCCCCAAGAAGGCGCGTGTCATGATCAACGCGTGG GCCATTGGGAGGGACAAGAACAGCTGGGAGGAACCCGAGAGCTTCAAGCCCGCCC GGTTTCTTAAACCGGGCGTGCCCGATTTCAAAGGGAGCAACTTCGAGTTCATTCCAT TCGGGTCGGGTCGCAGATCCTGCCCCGGGATGGTGTTGGGGCTCTACGCGCTCGAGT TGGCGGTGGCGCACCTCCTTCACTGCTTCACGTGGGAATTGCCAGATGGGATGAAGC CAAGTGAGATGGACATGGGTGACGTGTTCGGACTCACCGCTCCAAGATCCACGCGA CTCATTGCTGTGCCAACCAAGCGCGTGGTGTGCCCTCTCTTTTAAAAAAACAACAAT TTGGATCTTTTTTCTTCCTTTTTTTTGTATTTTCTTTTTATCCCTCAATTATACATAATC ATATTAAAATAATATAAAGGGAAAAAAGGCAGCTACACAATAAGAATGTGGGAGTA TTTGGAAGAAAAAAAAATTGTAAACAATCAATTATATGCATTTTGTTATTTTTGCCC CATTTCCGTTTTGATTCTTATATACGAGTAGAGTAATGATGGAGTCATTCTTTTTAAT ACTCTTTCTTAAAGACTTTTTTATGATTAATTATAATTCATTAAACAAATATTAATTT TGATTGATCTTGTTTTTGATTTAATACAAATAAGGAGAATGAATCATTAAATAAGAA CAACCAAAAATAATATTTTTAAATAAATTCTAATTAATCATAAAAAAATCTTAAAAA AAGAGTGTCAAAGATAGTACATCTCTCTTACATATTAACAGAAATAAAAGTGTACCG GCCATTAAAAGAGTCAGTAGCTATGGTGGCATAATGGCATGTTACCAATAATTGTTG TGACAAATTAAGTTGCGCGATTGTGGTAATTTAGTTTCATTTTTTGTCTTCGATGCGA CAGTGAATAAATTACCACAAGTGCGTACCATGGGGAATTTATTTTTGTTGCGGGGAT TTCACATCAAATCACGTATTTAACAGTGGTAGTATTGTTTTCTAAGTGGGTTCTAGAG GCGAAGTTGATGACTTTTGAGTGTGAAAGATTGATAGGAAAGTGTAGCTATTATTAG AAGGGGCGATACAAATCAACAAGTGTCCCAAAAATCAACATCGCTCAGGTTGATTA GTCCTGAAAATATATATAACGATGTTGAAATGCATGGACCCTGCGCTATAAATTGCT TTCCTAATTGAGTTTGAGCGTGGCAATGGCAATGGCAAAAGAATTTTAAGAATGCTT GCTCACTGACGCTGCTTCTAATGGGAAAGACTTTTTCTACATGCATATGTTTTAAGA AAAAGAATTTATCGTATAAGAAAAAATCTAGGGCGAAAAATAAGTTACATTAAAAG CTTGACATGAATTAAGGGTGCCCATGTGAGTCAGCTGTTAACATGAGATGAAAATTT ATTGAACTTATCTTGAATTTATGTAGTTAATTAGATTTGTCGGTGCGTATTCCGAATA TGGAAAAGTGGCAGTAATTTGTTTTATATAAGAGAAATGATTGAAGGTGCAGCGTG GAAAAGTATATTTCAAAGCGTATATGTAATGGCGTGTAATATCGAAACAGAAAGAT GAATGAGTAGAAGCCGAAGAGTTTAGGTGAGTGTTAAAAAGAACCAGGGGCCATTC TCTGATTTTATTCAAATTCAATATCAGAAAATGACCCTCGTTGGGCCCTTATTTTGTA TCCATAAGCAAAGTCAACTGAGGAACTCTTCCGGGGTTGCAAAGCTTTAACTACTTT GTGATACCAACACAGACTACACTTGTATTTAAGGTCCGTTTGTTTGACTATTTTGCTT CTGAAGAAGAAAATTCTACCACTCGTTTCACACAATGCTTCTTGGTCAGCGTGAACA CTCGTTGTTTTCAGACGTAGAATCTCAAACAAGTTAAATCGGCAGATTATCATTTGC TTATGTGTGTCTTGTTAAGGTGTGAAGTTATTACTCTTTACTAGACAGTTAGACATAA ATATTTTCAATTTGCTGGTTCAATCAGACAATGTGAACAAATTCCATAAACAATCAA ATTTTGATCACCATTAACCTAAAAACAAAACAATAAATGAGGACCGCCCAATTTTGT GTTTAGTTTATTAGCTAAATAAACCCGTGGAAGGCCTGCTTATGGAGTCATGGTCCC ATGCCAAGATTTTCTTTTGTTGAATTTAGAGTAGATTTGAAGAGAGACAGAGAGAGA GAGAGACAACCGAATCTTTTGGAGAGAATGCATAAAATGAAAAAGGCTTTCTTATT CTTGTAAAATGCAGTACAAAGATTTTGCATATCATTTATATGAATAGTAGGGTCAGC CCAACAAATTTTGTTGGACTAATACAAATTCTATATTTTAACTAAGGAACAATTAAA CTAATTCTTTAAGACAAAAGCACATACTAGTACTAGTTATAATTGTCATATGTAACA GATGATGAAAAAATTATAAA SEQ ID No: 104 >Soybean_Q2LAL3 CTTAATTGAATTTGTCATTCTCCTCCATAATTTACTCATAGCTATTTGATGG CCATCATTTGAAGAGTAAAAATATTGATTTAAAAATTACTGATTTTTTTATTACAAAT ATGATCAAATACATTAAAAAAACAAAATACTGGTTTTGAAAATAGTAAATAAACAA AAGGCCTTATTATTTGAAGTTTTATATAATGAATAAGAATTATTAAATACTCTTCATT TTAAAAGTATAATTTATTTAATTATACTTTTATTTTATTAACATTTTGTCATTCTACTA GATTGACATACAACCGCGGTACTTTTACTAAATGCTCTGAATTTAACTATAATAATG ACTCATTTTTATTAAAGCGAAAAGTAATTCAAATAACATGAACTTTTTGAAGGAAAA CAACATCACTTTAGGTACTGTTTGTACTATTTTTCAATTAAAATTAAAGTTTCTCAGT AATTTATATTGTATTAAAATATTTTGTAGATTATCAAGAAGAATCATTAGCAAAAAC ATACATATGATATTGTACCTAAGGTTTCTCCATAGGAATTCAGTTTTTTAAAGTCAAC AAATTTTACAATTTTTTTACAACTTTAGAGTTGACCTAATATTTATCCAATAAATGTA CTACAAACTTTCTTGAATTTTTTATTCCTGAGTGGGCCAGGAACTTTCTTGAAATTGT ATAATTTTAAAACGTAATAAATACTTTCTTGGAATTAGGAATAGTTGGGAGTACTAT GTTTTTTTAAAGGAAAGTTGGTACCACTATATTAGATTTTAGTTGTTTCAAATTTACT AATTTAATTTGTTTAAAATTATTATAAATGTGTTTTTAATTTTAAACTTTTCTATATAT TATAAGAAAGTTTAACTAACTTCTATACTAATTAAAAAAGTTAAATAATATTCCTTTT ATCTTTAAATAAATATCACATTTGAAAATATTATCTCAAAATAAATGTCATACATGT TAATTTTTTACTTTAATATTAATTTTTTATTAAGGTTAATTTTATAAAATTATTAATTT TTCATTTATTTATTATTTTTTCTTAATTTATATAAAATAATTTAAAATGACACTTATTT TAAGATAAAAAAATATAATATTATATTAATATCATGACATTGATTTGGAGAATCTCA TTGATAACTTTTAACTTATAGAATCTCATTTCCAACCTTATCTTTTAACATACAAGGC TCAAATTAACTTGACATCTTTCACAAGGAGATTGAGTTTAGTTATTAGTTAATATTAA TTATTTAATTTTACTAATTATATTTAATAAATAATTTTTCTTAAGAGCTCTTCATTGGA ATTGATAAAAAAATAGTTATTGAAAATATATATTCAATTAATTGAATGATATTTTTA GGATAATATTATTAAAAAACTAAAATAGTTAAAACTTAATTATATTTGAGTTCATCA TATCTTTTTTATTGTTTATAATTGACTCCGGAGGTGCTAGGTACTTTCTTGAAATTAG GAATAGTTTGAGATTAAGAAAAATAAAGTGAAATGTATTTAAGGAATATTTATCAA ATATTTATTATAAATATTAAGTAATAAATGTAATAAGTATTTCTTATAAATATTAAGT AATAAATATTCATTAAATATATTAGTATTTTAATACTAAATATGAGTAAAATATAAT AAATAATCGTAAATATTTATTATTTAAATATACTTACTTACTAAATATTTATTATATA ATGCATAAGCATATTTTAAGTATAGTTAATAATAAGAAATATTTGGCTATAACATTA ACACACCAAATTAAAATTTTTTTTTATGAGAACGAAATTAAAATTTAAGAAACTAAA ATCATGCATTTATAAAATTTAAAAGAGTAAAATTAGACGTATACAATTAGTGGTCGA GTTTATTTGAATCGGTAGTATCTTTGTTATTATATTAAATTAATTAGAAACGTCCACG TTTAATAAATATCTGAAGAGAAGAAAGTGTATATATAAGTCCACATGAGACTCCCCT GAACCCAGCAACAACAACACTTACTTGTAGTTGCGAAATCATCCAAACACATTCCAT CTATTAAGATTTTAGAGAGTGAAAATGGATTGGCAAAGCATGATGGGCAACCTGGA CCCATTCCAAAGAACAATCTTAATCCTCGTCCCACTAACACTACTCCTGCTGCTGTTA CTATCTCGTACCCGTCCAAGACCGCCCTATCCACCAGGCCCTAAGGGCTTCCCAATC ATAGGAAACATGTTTATGATGGACCAGCTAACCCACCGCGGTCTCGCCAACCTGGCC AAACACTACGGCGGAATCTTCCACCTTCGCATGGGCTTCCTCCACATGGTCGCCATC TCCGACCCCGATGCCGCGCGACAGGTTCTCCAAGTCCAAGACAACATCTTTTCCAAC CGCCCCGCCACCATCGCCATCAGCTACCTCACCTACGACCGCGCCGACATGGCCTTC GCCCACTACGGCCCCTTCTGGCGCCAGATGAGGAAACTCTGCGTCATGAAGCTCTTC AGCCGCAAGCGCGCCGAGTCCTGGCAGTCCGTTCGCGACGAGGTCGACTCCGCCGT CCGCGCCGTCGCCAACAGCGTCGGAAAACCCGTCAACATCGGAGAATTAGTGTTTA ACCTCACCAAGAACATCATCTACCGCGCCGCGTTCGGGTCGAGTTCGCAGGAAGGT CAAGACGATTTCATTAAAATATTGCAGGAGTTCTCTAAGCTCTTTGGCGCGTTTAAT ATTGCGGATTTTATACCCTACCTCGGGCGCGTAGATCCACAAGGTTTGAACTCCAGA CTCGCTAGGGCACGTGGCGCGCTCGATAGCTTCATTGATAAGATCATCGACGAGCAC GTGCAGAAGAAGAATAATTATCAGAGCAGTGAAATTGGTGATGGTGAAACGGACAT GGTGGATGAGTTGCTGGCGTTCTACGGCGAGGAGGCGAAGTTGAACAATGAATCGG ACGATAATTTGCAGAACTCTATCAGACTCACTAAGGATAACATCAAGGCTATCATTA TGGTATGGATTCGTTTTCAAATAAATATATCTTATTCTTATCAGCCACCTAATGAAAT CGATAATTATTCATGGCATGAAAGTTTAAGCATTTTACTATTTCATCCAGAGTATTTA AGATAAGAGCACTGTTTTTTTTTCTCAAAAACCACCTAAGCACGTACAACTTAACGC CAATACCTCAATGATTGGATTGATCTTCAGCTTATCTTTGGATTAATTTCTACTTTAA TACTTTAATGGGATTTTTTTATTGTGAAATCTAATTGTTAAATGTTTTTTAGTGCAAG AATATTAAGATCTATAAAGTTTAATTTATTGATGTTCATAGAAAAATTGGATGAAGA ATTAACCTTTTAAAAAGTTTATTTATTTCATCTCCTATACATTTTATATTTTTTTATTG GTGTTTATTAAGAAGTTGTCCAAAAAGACTTTTACTATTTTTAATTCTTTATCGTCCT TCACCTTAAAAAGAAAAAAAGTGGCTCTACCTTGAGTATGTATAATATATTGGGAAT GTGTAAAAATATCAACTTTTGTTTGCTAAATTATAATATATTTTAAAAAAATTTACTT TCTGTAAAGGCTGGTTGAATTCGTGATATTCTTAATTTTCAATTTTGAATTTACATTT TTTAAATTAGATATATGTATTTTTAAATGCTTTTTTCAAACATTTTATACTTCATTTAA ATTAAAAATATCAATATATTATACATAAAATGCGTGTTAAATATTTTTTAAACCTTTT AGTTGTATAGAAGTATTTGCATGTCTGTTAGTCATCCTAAATTGCTTTGTTTGGAAGT TTTAATTTGTCAGAAGTTGATTTAAGTGCCTAAGTTATAAATTTTCTATTTATGTGTC ATCAATATGTAGTTTACTTATTAAACTGATTTGAGTTCATTTAGAAAACAAATTTTCA ACATTTACAAAAAAATGTCTCCAAATCAATTATGATTATTTATGCCGAAATTGAAAA AAGTAAAAGCAGATTTACTATGATTATTATGGGCTAACTGGAGATGAACAAATAAG GTAGATAAGATCATAAGATTTGGAAACACTAGCCACCAAACATGCAGTACTAGTGA GTGACTATCCCAACGTGTTTCATAGTGGGTTTGGGTTGGTGTCATTTCTCCGTCCATA TCTACAGTTGCTTCTTCTTCTCTCTCTCTCTTTTTTTTTTTTGTTTCAATCAAAGTTTTA TTTTTGAATGCAAAATTCAACGTTGTGCCCTATGAAGGTGGTAAGTAAATAAAGAAA ATTGATATCGGTGATGATTGTTTCATTTGTTTGTGGTGTGTGTTAATATTATTACACT TTACACAGGACGTGATGTTCGGAGGCACGGAAACGGTGGCGTCAGCAATCGAGTGG GTCATGTCGGAGCTGATGAGAAGCCCAGAAGACCAAAAGCGGGTCCAACAAGAGCT GGCGGATGTAGTGGGCCTGGACCGTCGGGTCGAAGAGTCCGATTTCGAGAAACTCA CTTATCTCAAATGTGCCCTCAAAGAGACCCTCCGCCTCCACCCTCCGATACCGCTCC TCCTCCACGAGACGGCGGAGGACGCCACCGTCGGCGGCTACTTCGTCCCCAGGAAG GCGCGTGTTATGATCAACGCGTGGGCCATTGGGAGGGACAAGAATTCCTGGGAGGA ACCCGAAACTTTTAAGCCCGCCCGGTTCCTTAAACCGGGCGTGCCCGATTTCAAGGG GAGCAACTTCGAGTTCATTCCATTCGGGTCGGGTCGAAGATCCTGCCCCGGAATGGT GTTGGGGCTCTACGCGCTTGAATTGGCGGTGGCTCATCTTCTTCACTGCTTCACGTGG GAATTGCCAGATGGAATGAAACCAAGTGAGATGGACATGGGTGACGTGTTCGGACT CACCGCTCCAAGGTCCACGCGACTCATTGCTGTACCAACCAAGCGCGTGGTGTGCCC TCTCTTTTAAAAATAAAAAAAAAACACTTGGATCTTTCTTTTTTTCCTCTTTGTATTTT CTTTTTATCCCTTAATTATACATAATCATAATAAATGATATAAAGGGAAAAAAGGGA GGTGCGCAATAAGAATGTGGGAGTATTTGGAAGAAAAAAATTTGTAAAACTCTTCTT GATCATTGATGTGAGCTTTTGTGCAGAAACAATTAATTATGTATGTATTTTGTTTCTT TTTGCCTCACTTCCGTTTTGATTAAAAAACTGAAATAAAAGTGAACCGGCCATTGAA AGAATCAGTGGTTATGGTGGCATAATGGCATTACCAATAATTTGTTGTGACAAATTT TTGTCTTCAATGCGACAGTGAATATGCAAGTGTGTCCCATGGGGAATTTTATTTTTGT TGCGGGGATTTCACATCAAATCACGTATTTAACAGTGGTAGTATTGTTTTCTAAGTA AGTGTATTCTAGAGACGAAGTTGATGACTTTGGAGTGTGAAAGATTGAAAGGAAAA TGTAGCCATTATTAGAAGGGGCGATACAAATCAACAACGAGTGTCCCAAAAATCAA CATCGCTCAGGTTGATTAGTCCTGAAAATAAATATAATGATGTTGAAATGCATGGGC CCTGGGCTATAAATTGCTTTCCTAATTGAGTTTGAATACGCTGCCTCTAATGGGAAA GACTTTTTCTACATGTGGCAGTAATTTGTTTTGTATACGAAAGTGCATAGTATTATAA TAGAATTGATTGAAGGTGCAGCGTGGAAAAGTATATTTCAAAGCGTATATGTAATG GCGTGTAAAATCGAAACAGGAAGTTGAGAGTAGAAGTCGAAGTGTTTTAGTGAGTG TTGAAAGGAACGTGGGGCCATTCTTCGATTATATTGAAATTCAATATAAAAAGTTAA AACCGTGAAAATGACCCTTGTTGTTGGGCCCTTATTTTGTATGCATAGGCTAAGTCA ACTGAGGAACTACTCCGGGGTTGCAAAGCTTTAACTACTTTGTGATACCAACACAGA CTACACTTATGTTTAAATTAAAAGCCCCGTTTGTTTGACTATTTTGCTTCTGAAAAAC AAAAATCTGGCACTCGATTAACACAATGCTTGTTTGTCAGCGTGAACACTGGTTGTT TTCAGACATGGAATCTCAAACAAGTCAGCAGATTATCATTTGGTGACATGTGTCTCG TTAAGGTGTCAAGTTATTACTCTTTACTAGGCACTAGACAGTCAGACATAAATATTT TCAATTTGCTAGTTCAATTCAATCAGACAATGTGAACAAATTGCATAAACAATGAAA TTTGATCACCATTAACCTAAAAACAAAACAATAAATGAGGACCGCCCAATTTTGTGT TTACTTTATTAGCTAAATATAAACCCGTGGAAGGCCTGATTATGGAGTCATGGCCCC ATGCCAAGGTTTTTTTTGTTGAATTTAGAATAGATTTGGAGAGAGAGAGAGAGAGA GCCGAATCTTTTGGAGAGAATAATATATAAAATGAAAAGGCTTTCTTTCTTATTCTT GTAAATTGCAGTACAGAGATTTTGCATATCATTTATATGAATAGTAGGGTCAGCGCA ACAAATTTTGTTGGATTAATGCAAATTTTGAGGTGGAGCGTAATTATGTCATAAATT CGATTAATGCCTATATTTTAACTAAGGGACAATTAAATTAATTGTCTAAGACAAACA CATACTAGTACTAGCTACTATAATTGTCCTATGTAACAAATGATGAAAATTTTATAT GAATACATTCTTGTAAAATGCAGTACTAAGATTTTGCATGCTACCATTTATATGAAT AGTAGGGTCAGCGCAACAAATTTTGTTGGACTAATACAAATTCAGGTGGAGAGTAA TCATGACATAAATTCGATTAATGTTTACATTTTAACTAAGGGACAATTAAATTAGTT CTCTAAGACAAACACATACTAGTACTAGTTATAATTGTCCCATGTTAACAAATGATG AAAAATTTATAAACACTACAACCAGCTTCCCTTATTTTTAGATATTCAAGACTAATG GGCACAAATATTCATATACGAAATGTATCAAGTGAGAGACTTTTTATATATGAGAAT AGGAGAAATGAATATTAATAATTAGATCTTGTCATGAATAGTCAAAATTAAACTAA ACAATTTTTTGAGTTTTAAAATAATCGCCTTACATTAAATCTAATTCCTCCACAAATA ATTACATGGCCTTAGCT SEQ ID No: 105 >Soybean_K7MH28 AAGTTGGATCTATAATAAGAGCACGAGGAAGTATTATATAAGACACATTG AATTTTGATATTTATGATAATGACAATAATTATATATTAATAATTTGAATTTAATGGT TATGTACTATGTAAAAAAATTTATATTTTTAAACCATAAAAAAGTATTGTTGGTATG ATAATTAAGATAATTATTATAAAAATAAATAAAATTATTATATATAATTGTTCATAA TTGAATGATAATGTAAAACTTTACATAAGGTATTTTCTTTAATAATTTTTAAAATACC ATCAAAGTTGTACACTACATATGTAAAAAAAAAAAGTAAAAATATTTGTACACTGC ATATAATTATAAATGATAAGTGAATCAATAAATAAATATAGATGGATAACTTTAATT CTTTTTTTTTTTTAATTTGAAACTTTTATTTTTAAAAATTAAAACTCATAAATATAATT ATCTAAAAAAACTCATCAATATAATAAATGAGTGAATAAATTAATGAATGCACAAA ATCAAATTCTTATTAATGACACCATTGAAATTTATTATTTTTCTCAATATTAATAATA TATGTGTTTTTATACGCATTTTTTTATTAAATATCCCATTAATTATCAACTAAAAAGG AATTTATTAAGCACACTAAATAACTAAAATGGGATATTTGGTTAAATAAAAGTGTAA GTAATTTTTTTTTATAAAAAAACACCAAACCTCTATGAAACTAATTGACACTAAAGT AATCCTTAAGGGGGAGAGAGACTAAAGAATAGCATTGTTAGGATGTAATTATCTTTA ATTTTTATTCACCTTTTAATTTTTTTCTTATCGATCCACCTATAAAAAATTACACCTTA AAATGAAAGGAATCAACTTTTTATTTTCGTTTATAGTTTTATGCCGTCTTACATGCAT GCATGGTACAACACGAGCAACACATGGACTCTCTATTTTAATATTTTGTATATTTTAA AAATGCATGGCTTCATTTACTTGTCTTCTAATCAACAAAACACTCACAGTCACATGA TCCACTTGCACTAGAGATATTTTTGAAGTCTTTTTTTAATGTATAATTCTTAACCAGG TCCCACCTTCAAGAAACATGCGTTTATAGTTTTAGAATGGACAAGGATATATGAACA TCCATGTATTTAAACATTTATTTATCCTACCAAATTATATCATTTACGGTATCAATGT TTTTTGTCCGATCTTTATTTATTTCTCTTTTAAAGTGCTCAATAGAATAGTGTCCACGT TGCTTTATTCTTTTAGAAAAATATACATTAACACCTGAAGTGCTAGTTGTCGCTTAGG GAGAGAAAAATAAATTAAAAAATAGCAATTATAATTGAACATTTATTTGTTATAAAT ATATGATCAATATTTTTATTTTTTTCTATCTACTCTTAACACATCATAAATTCTTAATA CTTATATTTTTTTCACTAGAAATTCTAAATACTTATTTTTTTTTTCACTAAATGTCTAA TAACATTTGGGATGTTCATTATTTAAAAAAAAAATAGAACAATGATAAACACTAACC ATTTTTTATTTCAAGCATTCACAAATACTTCTCATTTTTCTTTATCTTTTTTTTCCATAT GTCATACCTACATTATTTTTTGAGTGAATATTTCAACTCCCACTTATTTTAAACATCT CATCAATAATTTTTATTTCTCTCCATTTCTATCTTTTTATCACATCCTAAACTTTATCA TATTTATATTATTTCATCTTCTGTTTTCTTTCTCTAGATGTTGGATAACACATTGGAAA AATATAAATATAATAGATAATTTGTATAATAAAGAAATAAGATGTGTTAATTGAATA TTTCAAATACGCCTGCAAAGATTTGTCATATGCCAAAGCACATGGGTTTGATATTGG TTGTAGATATAAGAATTTTATTAGTGAATAAGATGTAAATATATGAGTAAATATTCT TTCAACTTTGAGATTACCATAATCCTAATAAGTCTCCATATTAATAGGTGTAATATTA TCATTAATTTATAATTTTTTTCGTGACAGAACAGAGACATGTGAGTATCGTCAGAGT ATATATATAAACCCCGTGATAAGTCCCTGACCTTAGCAATCTATAGCAGCACTTGAA AACACAATTCATTTCCTTGTTTCCTTCCCAATCAACACATAGAACCAGAGTGCAAAG CTTTTGCAGTCAGCAAGAGAACCAAAAAAAATCCCACACCATGGATTTGCTCCTAGA ACTGAAAACCGCACTGGAACCGTTCCGCGAAACACTATTGTTCACAATCCCATTGAC TCTATTGCTGCTGGGCATAGTGTCCCGAATCCGCAGAAAAACGGCGCCGTATCCACC GGGCCCAAAAGGCCTCCCCCTAATAGGCAACATGAACATCATGAACCAGCTCACAC ACAAAGGCCTGGCCAACTTAGCGAAGCAATACGGCGGCGTTTTGCACCTCCGCATA GGGTTCCTCCACATGGTGGCGATCTCCAACGCAGAAGCGGCGCGTGAGGTTCTCCA AGTCCAAGACAACATCTTCTCCAACCGCCCCGCGACAATCGCCATCAGCTATTTAAC CTACGACCGCGCCGACATGGCTTTCGCGCACTACGGTCCCTTCTGGCGCCAGATGCG CAAGATCTGCGTCATGAAGCTCTTCAGCCGCAAGCGCGCCGAGTCATGGAACACCG TCAGAGACGAAGTCGACTTCATCATCCGTTCTGTTACGAACAACCTCGGAAGCCCCG TCAATGTCGGAGAACTCGTCTTCAACCTAACGAAGAACATCATCTACCGCGCCGCGT TCGGGTCTAGTTCCCAGGAGGGGCAGGACGAGTTCATTTCGATTCTTCAGGAGTTCT CGAAGCTCTTCGGGGCTTTTAATGTTGCAGATTTCGTTCCGTTTCTTGGGTGGGTTGA TCCTCAGGGGCTCAACAAGAGGCTTGTGAAGGCACGTGCCTCGCTGGATAGCTTCAT TGACAAGATCATCGACGAGCACGTGCAGAAGAGGAGGAGTGGCCACGACGGCGAT GAGGAAAGTGACATGGTTGATGAGTTACTGAATTTTTATAGCCATGAGGCGAAGCT GAATGATGAGTCCGACGAGTTGCTCAACTCCATCAGCCTCACCAGGGACAACATCA AAGCCATCATCATGGTACGAACCTCCCTGCCACACTATTTATTTTCAAATGTCTAATA CATCAAAGCCATCATCATGGTACGAACCTCCCTGCCACACTATTTATTTTCAAATGTC TAATACATCAAAGCCATCATCATGGTACGAACATCCCTGCCACACTATTTATTTTCA AATGTCTAATACATCAAAATATTTTATTATTTTAAATTTCTCATCACCATCTTTTAAA TTAGAAGAGAAAATTATTAAAAAAAAATGAGACACTGAATCACAAAGAAACATCAA GAAGAAAGTGTAAGAGAAAATATAGCTAACATTCATATATATTTTAATTATATATAT AAATAAAATGAATACAAATTGTACTTTTCTTAAAAACTATTAAAATAAGATGACTAC AAATTGTACTTCACTTAGAAATAAGAAATTTTTGTATACTTACGGACTGTCTCGCGT GTTCATAATTTTAACTTTCAATTTATCAGGAAAAAAAGATTTCATCAAATATCACAA AAAATTAACGGGAATCATTGATAATACTGTCCTGTTTGGTATGGAGAAGACAAATA AAAATTACAGTATTAATGAAAGTAAAGAGGGTGAATAAAAATAGAGAAGAAATAA AATTAAAATAGATTATTTTAATTAAAATTAAAATTAAAGAGGGTGAATACAAAGAT AGCTAAAAAAAATAGCTGAAAAATAATATAATGAATTCCATTTCATCATTTTTAAAA TTATTTTATCTCGTTTTTTTTTCTTTTATCAAACAAAAAAAAAATATCATTCTTTCCCC CTTCTAATTTGTCTGCAACCGAATAAGCACTGCATGTGACAATAATGCAAGAATTTT TCTTACTCCACACCATTAAATCATCACTTGTAGGAAAAAAAATAATCATCAATGAAA GTACTATTCACTATGGCTCAACCACCCCCTCATTTCAATTATCAACGAGTCTATGTAA AGTCGGAAAAAAAAAAATTAAAGACTTTCAGACAGTCTGTACGTGCAAAGATGTAT CATCATCATGAATAATTATAAATTTTCTTACAATATTTTTTTTAACAAATCTTCATGG TTATTAGATGAAAAAATATTAAATATTTTTATTTGTTTATAAGAGTTTAATGGTTATA TTTAAAATAATTTTATATTATTATTTAATCATAAATTATTATTATAACTTTTAAAATA ATTATTATAAAAATTAATTAAATATTATATATATAATAAATTATAATTAAATAATGA TATAAAATTATTTTAGCTCTAAGTATCCATCCTTCTCAGTCTTTCGACCGCCTCTAAA AAAAAAGAAAAAAAACTTGAGTTGCCAGGAACTGTATAAAAAAGGTTTGAGACTTG AAAAGAGCAAGATATGTAAGCAGTGGCCATTCCGGTTGCTATTTTCTCTGTTTATAA TATATTAAATATATGTATTCTTTCATTTATTTTTTTTATAAAGTATTAAAGATATTGGT AAGAAAATAATTAATGTGCGGGAATATAACTTTACCCAGTATACATGTCAAATAGTA ATTCACTCAAATAATATATTCTTAGCTAATAAACTCTTGTGCCATGATATTTTCGTCT ATTATTTGTTTTGTGAAAAAGTTGAGGCTAGGACCGCATATTTTCGTCTCTAAGTCAA ATGGAGTAATATGTGATTATAGATTGATGTGGATGGTATTACATTACAAGAAAACAT AAAAATAAAAAATAAAAAAATACGCCGACAAAACAATTTCCAAAACTTGTTTCTTT GTTTAGAAGAAAACAAAGACCATTAGAATTGTATGAAAATTATTTTTGACTTGCTGT ATAAGGAGAGATTCTTTAAAGATTCTCTCCAACTGGTTCGTTTGTTTAACATAACCTG GATTCGTTTGTTTCATAAAAAGGATGAGATTTATGGGTAATAAAAAGGGAAGAAGG GGGAAGAGAACAATTCTTCCTTCCTTTGGACATGGAAAAGGAAAGTGTGCGAGGTT AGTCCTACGTCACTTGTATCATTTCTCAGTTTATGAATGGAAATTCAGAAACAAAAA ACGGGTTATATTACTTATATTTTATTTTCTATTTTTTCTTTCATTTTTCTAAAAAAAGC AACTTTTAACCTTTTTGTGAATTAATGTGTAGAAATACTATTATGCATGTTTTATTAT TTCATATTTCAGTAATATTTTAGTACTAAATGTTATAATAGGATGAAGCACATTAAA TTAAAGGATTGATACTATTTGGTTTGTAAAAAATAGGGTGGGTTTAGGAAAGAAGG AAGTGGGGGGAGGTGGACGTACTATCAAATCCTTCCTTCCTTTTTTGAACATCGTTG ACTGTGTAATAATTGTATTTTTTTTATAACTGGAAATAATTATATTTGCAGCTAAGTC CCACATCATTCATATAATTTGTCAATTTATGAACGGTAGAAAAAAAGGGCTACCTGA CAAAAATATTTTAATTTATATTACATTTATTTTATATTTGAGATACTTATGCTATTTTA TATTCATGTTTTGTTTCTTCACTTTCTATACAACTAAACAAGTAAAAGGAAATTGTTT ATCTCTCTTTCATTTCACTTTTTCTTCTGTCGAATAATCTAAAAATTATTATACTTTCT ACATTTTTTCATTCTTTCACTTTTTTTTTTCTTATATCAAACACAACAAAAATGTTAAA ACAATATTTTACTTTATATACTTTTATATACTTTATTACTTTTATCATATACTTCAGTA ATAATATGATGGATTGTCTTAAGAAGAAAGTAATAATATGATGTGACACATCAAAA TAAAAGATTGAAATGTTTATAGTATCCCTAGTCACATGTATGTGACAAATAGCTTGT TTATTATTTGTTTAAATTAATAGAAAATGATATTTTTAATATAGTTCGGATATTCTGG TAATCATAACATATATTCCTGAGTAATAAAAAATGTGAACCAAACGTGTGCTTCAAT TATTCCTAGACCCAGTGTCCATGCATAATTTTTTTTAAAAAAGATTTTCATGTTACAG GCAAAAGCATACACTATAATTAACTAGTTAACTACGTATAAAATATGCAAACTTAGA TCGGGAGAATGAATGGTATAAACTGTGAAGCCTCAAAGATAAAAAGTCCCCATTGT TTTAATTTAGTGGTTAATATCGGTGCCAATTATCTTTCGGTCCATGTCATTGTGATAT TTCAATTTCAAGTTTTGAACAACAACAACAAAATAATACAAACAAAAAGAAAAGAA AACCAGAAATGAAACTGTTGATGTAATTATTATTTTTGGTTTTTGTGTACACTAGTAA CCAGTAACACTATTAATGTATAGTATTTGAAACAAGATTTTGGTGGATAGTAACTGA CAACTATGCAAGACCATGCAGGACGTGATGTTTGGAGGAACCGAAACTGTTGCGTC GGGAATTGAGTGGGCAATGGCGGAGCTAATGAGAAGCCCAGACGACCTACGGCGCG TGCAGCAAGAACTCGCCGACGTGGTGGGCTTGGACCGGCGCGTGGAGGAATCAGAC CTCGAAAAGCTCGTATATCTAAAATGCGCTGTCAAGGAGACGCTGCGGCTGCACCC ACCTATCCCGCTGCTCCTCCATGAGACTGCGGAGGATGCGGCGGTGTGTGGTTACCA CGTGCCGAAGGGCTCGCGCGTGATGATAAACGCGTGGGCCATAGGGCGGGACAAGA GCGCGTGGGAGGACGCGGAAGCGTTCAAGCCTTCGCGGTTTCTGAACCCGCACGTG CCGGATTTCAAAGGGAGTAACTTTGAGTTCATTCCATTCGGGTCGGGTCGGAGATCC TGCCCCGGAATGCAACTGGGTCTTTACACGCTGGAACTGGCCATGGCACACTTGCTT CACTGCTTCACATGGGAGTTACCAGATGGAATGAAACCCAGCGAGTTGGACACGAG TGACGTGTTCGGACTCACCGCGCCCAGGGCGAGTCGACTCGTCGCAGTCCCATTTAA GCGCGTGTTATGCCCTCTCTAATAAAAGAAAAAAAAGTATCGCAAGTTTACGAATA ACGGCCTCGAAGGGCTTCACCAAAGTATAAAAAGAACATGGCGGTGAAGTGCTTCG GGACTTTAAGGTTGTTTTTTCTTCTTCTTTAATTGATGTTTTTTATTCCTCAATTGTAC GTGGGTGATCGTGTCTGGAGGAGAACCCAGTTATTGTAAAGAAGACAAGGGGATAT TAGGTTAAGTTTTCTGTTGATTATTGTAAAGACGATTTGATCTACGTGCGGAAACAT CATTATTGTTGGGTTCACTTGGTTGTATTTTTTGGTCGCACTCTGGTTTTAGTTGTTTG CAAACTTGATAAAACCGCAGCAAAACGGAAGTACCTTGCAAAAGTCTTGTCCAGAA AATTTAGGGTTTTATTAGGCAAAATTTACATGGAGGCTAAATATAAATTATTAAATT CAGGGGGCAAAATTATTGACAAAGTTTTATAATGTAGTAATTTTAACATTTCACTTTT AACAAATAATATATATATGACTAATTTATTTAAGTTATTTTACAATATAATTGATTCC AAATAAAATTTGAGTAATTTTAATTTTATAAATTAAAATATGATTAATAATATTATTT TAGTGATGCTTGATTACACTTTCAAAAAAAAAAGTAATGCATGCATTAACAAATATA ATCTTTTCATTATACTTTTTTGAAAAATTATTGTTTAATTATTCAAATCAACAATATTT TTTAAACTTTAATGTATTAAAAATATTTTTGCAAAAATTATACCTTCTTAGTCTTGTC ACGGGCGTCTAATTGTCATGTCATTACCTTCAATGACTTGCATGGACGTGTCAATGA TTGAACATGATGATGTAACACTCTGTTTGTCATATCATCACTTAATGAAAAGATGAC TAACGGTAGGTAGTAAAATAAAATAATTTTTTTTAAGTATGTATTTGATAAAAAAAA ATAAATTTTTAGATAGTAATCTAAAAACAACCTATTTTTCAGGTATGAAAAACTTAT TTAATATATGACATGAAAAATTTATTTAAATTATATATAAGTGGTATTTTACCGTTTA TAATTAATGTACATATGTAACATATTATGCATTCTCTCACTATTCCTTCACTATTCTCT GGATTCAAAATGTATATCCTCATTATTTGATCTTGTTGGATTCTCTTCTAACCTTGTC CAGATATTAAAATGTATGCATCTTAACTCTTTAATTTTACCTTTAATATTATCTTATT AATCTAGTTCAATTAATTAAATACGATAAATTGATATATGAGTTATTGTAAATTTCA AATAGTATTTTTTTTAAATGTATTTCTTATTTTAAATGAGGAATTATCTTAAAAAAAT TAAATAAGATAAAGTTTCTCAAATTTATATAAAATTAAATTACTTATATGTTTATCAA GTTATTTTAATTAATTTTTAATTTTTTGACAAGTTTACAAATATTTGATCAAATAAAA GTCTATGAGAATCGATTTTTTTTATTGACTTATAAGATTTGCTTTTAAACATAACTTA AATTTACTATTATCATTTTTATTTTCATTTTCAATAAAATGATAAAATTTATCATTTAT CATTTTATCTGAAATTAAATTATTTATTTTGATAAAACTCCTCCTTATCATTTGTTAAC TAAAAAATTATTTTTCATATTGACATAAATAAGTTTTTCATATCTAAAAAATAGACC AATTTTAGATTATTACCTAAAAATTTATTTTTTGTCAAATATTTACCTGAAAAAAAAA TAGTTTCATTTTACTACTTGTTGTTAATTTCTTTTCGTTAAGTAATGACGTGTGACAG AGGGAGTGCCAGATTATCATGCTCAATCACTAACACAAGGTAATAACATGATAATG AAGTATTTGTGATAAGATGTAATGATATGATACTCCATCTGTCACGTCATCATTTAA CGGAAGGGGAAATTATTGTCAAGTGCTTGGTTGAAAAAAAATAATGTTAAATGATA TTTAAAAAAACCTATATTCCATGTATGAAAAAATTATTTAAATAAGTTATTTTGTAAT ATTCGTTGTATTGTATCAAAAGATATTTCATACATTTGTTAACTTTTTATTAATGCTTT TTTTCAAAATTTTATAACAAAGTTTTATAATTTATATATATTCTTTTACAATGACCTTC TATTTAGATATATTAACAAATTAAGTTTTATCTGAAAAAAAAAATTAATTAAGTTTT ATAATTTAGTCTACTTTTTCCATTTTTATCCGCTCCATTTCTCACATTTTATTCTCTCTT ATCT SEQ ID No: 106 >Soybean_I1LHY5 CTTAATTGAATTTGTCATTCTCCTCCATAATTTACTCATAGCTATTTGATGG CCATCATTTGAAGAGTAAAAATATTGATTTAAAAATTACTGATTTTTTTATTACAAAT ATGATCAAATACATTAAAAAAACAAAATACTGGTTTTGAAAATAGTAAATAAACAA AAGGCCTTATTATTTGAAGTTTTATATAATGAATAAGAATTATTAAATACTCTTCATT TTAAAAGTATAATTTATTTAATTATACTTTTATTTTATTAACATTTTGTCATTCTACTA GATTGACATACAACCGCGGTACTTTTACTAAATGCTCTGAATTTAACTATAATAATG ACTCATTTTTATTAAAGCGAAAAGTAATTCAAATAACATGAACTTTTTGAAGGAAAA CAACATCACTTTAGGTACTGTTTGTACTATTTTTCAATTAAAATTAAAGTTTCTCAGT AATTTATATTGTATTAAAATATTTTGTAGATTATCAAGAAGAATCATTAGCAAAAAC ATACATATGATATTGTACCTAAGGTTTCTCCATAGGAATTCAGTTTTTTAAAGTCAAC AAATTTTACAATTTTTTTACAACTTTAGAGTTGACCTAATATTTATCCAATAAATGTA CTACAAACTTTCTTGAATTTTTTATTCCTGAGTGGGCCAGGAACTTTCTTGAAATTGT ATAATTTTAAAACGTAATAAATACTTTCTTGGAATTAGGAATAGTTGGGAGTACTAT GTTTTTTTAAAGGAAAGTTGGTACCACTATATTAGATTTTAGTTGTTTCAAATTTACT AATTTAATTTGTTTAAAATTATTATAAATGTGTTTTTAATTTTAAACTTTTCTATATAT TATAAGAAAGTTTAACTAACTTCTATACTAATTAAAAAAGTTAAATAATATTCCTTTT ATCTTTAAATAAATATCACATTTGAAAATATTATCTCAAAATAAATGTCATACATGT TAATTTTTTACTTTAATATTAATTTTTTATTAAGGTTAATTTTATAAAATTATTAATTT TTCATTTATTTATTATTTTTTCTTAATTTATATAAAATAATTTAAAATGACACTTATTT TAAGATAAAAAAATATAATATTATATTAATATCATGACATTGATTTGGAGAATCTCA TTGATAACTTTTAACTTATAGAATCTCATTTCCAACCTTATCTTTTAACATACAAGGC TCAAATTAACTTGACATCTTTCACAAGGAGATTGAGTTTAGTTATTAGTTAATATTAA TTATTTAATTTTACTAATTATATTTAATAAATAATTTTTCTTAAGAGCTCTTCATTGGA ATTGATAAAAAAATAGTTATTGAAAATATATATTCAATTAATTGAATGATATTTTTA GGATAATATTATTAAAAAACTAAAATAGTTAAAACTTAATTATATTTGAGTTCATCA TATCTTTTTTATTGTTTATAATTGACTCCGGAGGTGCTAGGTACTTTCTTGAAATTAG GAATAGTTTGAGATTAAGAAAAATAAAGTGAAATGTATTTAAGGAATATTTATCAA ATATTTATTATAAATATTAAGTAATAAATGTAATAAGTATTTCTTATAAATATTAAGT AATAAATATTCATTAAATATATTAGTATTTTAATACTAAATATGAGTAAAATATAAT AAATAATCGTAAATATTTATTATTTAAATATACTTACTTACTAAATATTTATTATATA ATGCATAAGCATATTTTAAGTATAGTTAATAATAAGAAATATTTGGCTATAACATTA ACACACCAAATTAAAATTTTTTTTTATGAGAACGAAATTAAAATTTAAGAAACTAAA ATCATGCATTTATAAAATTTAAAAGAGTAAAATTAGACGTATACAATTAGTGGTCGA GTTTATTTGAATCGGTAGTATCTTTGTTATTATATTAAATTAATTAGAAACGTCCACG TTTAATAAATATCTGAAGAGAAGAAAGTGTATATATAAGTCCACATGAGACTCCCCT GAACCCAGCAACAACAACACTTACTTGTAGTTGCGAAATCATCCAAACACATTCCAT CTATTAAGATTTTAGAGAGTGAAAATGGATTGGCAAAGCATGATGGGCAACCTGGA CCCATTCCAAAGAACAATCTTAATCCTCGTCCCACTAACACTACTCCTGCTGCTGTTA CTATCTCGTACCCGTCCAAGACCGCCCTATCCACCAGGCCCTAAGGGCTTCCCAATC ATAGGAAACATGTTTATGATGGACCAGCTAACCCACCGCGGTCTCGCCAACCTGGCC AAACACTACGGCGGAATCTTCCACCTTCGCATGGGCTTCCTCCACATGGTCGCCATC TCCGACCCCGATGCCGCGCGACAGGTTCTCCAAGTCCAAGACAACATCTTTTCCAAC CGCCCCGCCACCATCGCCATCAGCTACCTCACCTACGACCGCGCCGACATGGCCTTC GCCCACTACGGCCCCTTCTGGCGCCAGATGAGGAAACTCTGCGTCATGAAGCTCTTC AGCCGCAAGCGCGCCGAGTCCTGGCAGTCCGTTCGCGACGAGGTCGACTCCGCCGT CCGCGCCGTCGCCAACAGCGTCGGAAAACCCGTCAACATCGGAGAATTAGTGTTTA ACCTCACCAAGAACATCATCTACCGCGCCGCGTTCGGGTCGAGTTCGCAGGAAGGT CAAGACGATTTCATTAAAATATTGCAGGAGTTCTCTAAGCTCTTTGGCGCGTTTAAT ATTGCGGATTTTATACCCTACCTCGGGCGCGTAGATCCACAAGGTTTGAACTCCAGA CTCGCTAGGGCACGTGGCGCGCTCGATAGCTTCATTGATAAGATCATCGACGAGCAC GTGCAGAAGAAGAATAATTATCAGAGCAGTGAAATTGGTGATGGTGAAACGGACAT GGTGGATGAGTTGCTGGCGTTCTACGGCGAGGAGGCGAAGTTGAACAATGAATCGG ACGATAATTTGCAGAACTCTATCAGACTCACTAAGGATAACATCAAGGCTATCATTA TGGTATGGATTCGTTTTCAAATAAATATATCTTATTCTTATCAGCCACCTAATGAAAT CGATAATTATTCATGGCATGAAAGTTTAAGCATTTTACTATTTCATCCAGAGTATTTA AGATAAGAGCACTGTTTTTTTTTCTCAAAAACCACCTAAGCACGTACAACTTAACGC CAATACCTCAATGATTGGATTGATCTTCAGCTTATCTTTGGATTAATTTCTACTTTAA TACTTTAATGGGATTTTTTTATTGTGAAATCTAATTGTTAAATGTTTTTTAGTGCAAG AATATTAAGATCTATAAAGTTTAATTTATTGATGTTCATAGAAAAATTGGATGAAGA ATTAACCTTTTAAAAAGTTTATTTATTTCATCTCCTATACATTTTATATTTTTTTATTG GTGTTTATTAAGAAGTTGTCCAAAAAGACTTTTACTATTTTTAATTCTTTATCGTCCT TCACCTTAAAAAGAAAAAAAGTGGCTCTACCTTGAGTATGTATAATATATTGGGAAT GTGTAAAAATATCAACTTTTGTTTGCTAAATTATAATATATTTTAAAAAAATTTACTT TCTGTAAAGGCTGGTTGAATTCGTGATATTCTTAATTTTCAATTTTGAATTTACATTT TTTAAATTAGATATATGTATTTTTAAATGCTTTTTTCAAACATTTTATACTTCATTTAA ATTAAAAATATCAATATATTATACATAAAATGCGTGTTAAATATTTTTTAAACCTTTT AGTTGTATAGAAGTATTTGCATGTCTGTTAGTCATCCTAAATTGCTTTGTTTGGAAGT TTTAATTTGTCAGAAGTTGATTTAAGTGCCTAAGTTATAAATTTTCTATTTATGTGTC ATCAATATGTAGTTTACTTATTAAACTGATTTGAGTTCATTTAGAAAACAAATTTTCA ACATTTACAAAAAAATGTCTCCAAATCAATTATGATTATTTATGCCGAAATTGAAAA AAGTAAAAGCAGATTTACTATGATTATTATGGGCTAACTGGAGATGAACAAATAAG GTAGATAAGATCATAAGATTTGGAAACACTAGCCACCAAACATGCAGTACTAGTGA GTGACTATCCCAACGTGTTTCATAGTGGGTTTGGGTTGGTGTCATTTCTCCGTCCATA TCTACAGTTGCTTCTTCTTCTCTCTCTCTCTTTTTTTTTTTTGTTTCAATCAAAGTTTTA TTTTTGAATGCAAAATTCAACGTTGTGCCCTATGAAGGTGGTAAGTAAATAAAGAAA ATTGATATCGGTGATGATTGTTTCATTTGTTTGTGGTGTGTGTTAATATTATTACACT TTACACAGGACGTGATGTTCGGAGGCACGGAAACGGTGGCGTCAGCAATCGAGTGG GTCATGTCGGAGCTGATGAGAAGCCCAGAAGACCAAAAGCGGGTCCAACAAGAGCT GGCGGATGTAGTGGGCCTGGACCGTCGGGTCGAAGAGTCCGATTTCGAGAAACTCA CTTATCTCAAATGTGCCCTCAAAGAGACCCTCCGCCTCCACCCTCCGATACCGCTCC TCCTCCACGAGACGGCGGAGGACGCCACCGTCGGCGGCTACTTCGTCCCCAGGAAG GCGCGTGTTATGATCAACGCGTGGGCCATTGGGAGGGACAAGAATTCCTGGGAGGA ACCCGAAACTTTTAAGCCCGCCCGGTTCCTTAAACCGGGCGTGCCCGATTTCAAGGG GAGCAACTTCGAGTTCATTCCATTCGGGTCGGGTCGAAGATCCTGCCCCGGAATGGT GTTGGGGCTCTACGCGCTTGAATTGGCGGTGGCTCATCTTCTTCACTGCTTCACGTGG GAATTGCCAGATGGAATGAAACCAAGTGAGATGGACATGGGTGACGTGTTCGGACT CACCGCTCCAAGGTCCACGCGACTCATTGCTGTACCAACCAAGCGCGTGGTGTGCCC TCTCTTTTAAAAATAAAAAAAAAACACTTGGATCTTTCTTTTTTTCCTCTTTGTATTTT CTTTTTATCCCTTAATTATACATAATCATAATAAATGATATAAAGGGAAAAAAGGGA GGTGCGCAATAAGAATGTGGGAGTATTTGGAAGAAAAAAATTTGTAAAACTCTTCTT GATCATTGATGTGAGCTTTTGTGCAGAAACAATTAATTATGTATGTATTTTGTTTCTT TTTGCCTCACTTCCGTTTTGATTAAAAAACTGAAATAAAAGTGAACCGGCCATTGAA AGAATCAGTGGTTATGGTGGCATAATGGCATTACCAATAATTTGTTGTGACAAATTT TTGTCTTCAATGCGACAGTGAATATGCAAGTGTGTCCCATGGGGAATTTTATTTTTGT TGCGGGGATTTCACATCAAATCACGTATTTAACAGTGGTAGTATTGTTTTCTAAGTA AGTGTATTCTAGAGACGAAGTTGATGACTTTGGAGTGTGAAAGATTGAAAGGAAAA TGTAGCCATTATTAGAAGGGGCGATACAAATCAACAACGAGTGTCCCAAAAATCAA CATCGCTCAGGTTGATTAGTCCTGAAAATAAATATAATGATGTTGAAATGCATGGGC CCTGGGCTATAAATTGCTTTCCTAATTGAGTTTGAATACGCTGCCTCTAATGGGAAA GACTTTTTCTACATGTGGCAGTAATTTGTTTTGTATACGAAAGTGCATAGTATTATAA TAGAATTGATTGAAGGTGCAGCGTGGAAAAGTATATTTCAAAGCGTATATGTAATG GCGTGTAAAATCGAAACAGGAAGTTGAGAGTAGAAGTCGAAGTGTTTTAGTGAGTG TTGAAAGGAACGTGGGGCCATTCTTCGATTATATTGAAATTCAATATAAAAAGTTAA AACCGTGAAAATGACCCTTGTTGTTGGGCCCTTATTTTGTATGCATAGGCTAAGTCA ACTGAGGAACTACTCCGGGGTTGCAAAGCTTTAACTACTTTGTGATACCAACACAGA CTACACTTATGTTTAAATTAAAAGCCCCGTTTGTTTGACTATTTTGCTTCTGAAAAAC AAAAATCTGGCACTCGATTAACACAATGCTTGTTTGTCAGCGTGAACACTGGTTGTT TTCAGACATGGAATCTCAAACAAGTCAGCAGATTATCATTTGGTGACATGTGTCTCG TTAAGGTGTCAAGTTATTACTCTTTACTAGGCACTAGACAGTCAGACATAAATATTT TCAATTTGCTAGTTCAATTCAATCAGACAATGTGAACAAATTGCATAAACAATGAAA TTTGATCACCATTAACCTAAAAACAAAACAATAAATGAGGACCGCCCAATTTTGTGT TTACTTTATTAGCTAAATATAAACCCGTGGAAGGCCTGATTATGGAGTCATGGCCCC ATGCCAAGGTTTTTTTTGTTGAATTTAGAATAGATTTGGAGAGAGAGAGAGAGAGA GCCGAATCTTTTGGAGAGAATAATATATAAAATGAAAAGGCTTTCTTTCTTATTCTT GTAAATTGCAGTACAGAGATTTTGCATATCATTTATATGAATAGTAGGGTCAGCGCA ACAAATTTTGTTGGATTAATGCAAATTTTGAGGTGGAGCGTAATTATGTCATAAATT CGATTAATGCCTATATTTTAACTAAGGGACAATTAAATTAATTGTCTAAGACAAACA CATACTAGTACTAGCTACTATAATTGTCCTATGTAACAAATGATGAAAATTTTATAT GAATACATTCTTGTAAAATGCAGTACTAAGATTTTGCATGCTACCATTTATATGAAT AGTAGGGTCAGCGCAACAAATTTTGTTGGACTAATACAAATTCAGGTGGAGAGTAA TCATGACATAAATTCGATTAATGTTTACATTTTAACTAAGGGACAATTAAATTAGTT CTCTAAGACAAACACATACTAGTACTAGTTATAATTGTCCCATGTTAACAAATGATG AAAAATTTATAAACACTACAACCAGCTTCCCTTATTTTTAGATATTCAAGACTAATG GGCACAAATATTCATATACGAAATGTATCAAGTGAGAGACTTTTTATATATGAGAAT AGGAGAAATGAATATTAATAATTAGATCTTGTCATGAATAGTCAAAATTAAACTAA ACAATTTTTTGAGTTTTAAAATAATCGCCTTACATTAAATCTAATTCCTCCACAAATA ATTACATGGCCTTAGCT SEQ ID No: 107 >Artichoke_KVI02897.1 TGTTGTGTTATGTATTGTTTTAATTGTAAGGAATATAGGACAAAAATTAGT CTTCTCTTCTTCAATACAATCATTTTTATGTTATATAATATTTTTGGAATAACTTCAAA ATTACATAACGAGTTATCTCATTTTAAATGATTAAGTCCTTGAACTATTTTTTTAAAT GAAAAACACCATTAATTTTTTTTTAATGAAAAACCATTAAACTTTTTCATTTTTATTA ATTAAATCCCTGGACATTTAAAAAAATAAATCATGCATTTTTAAAACTTGGTTATCT ACATCATTTTAACTCAAAAAAATTACATTACTCAACTAGCAATAGTTCGATGGTTTG TTTATTTAAAAAATCAGGTTTAATCATTCAAAATGAGAAAGTTTAATGGTTTTTTTAA TTAAAAAAATAGTTCCGAAACTTAATCATTCAAAATGAGAAATGTTTAATGGTTTTC TTCATTCAAAAATATAGTTTAAAGACTCAATCATTTAAAATGAGAAAGTTTGTTGAG TTTTTTTGGACTTTTCTCTAATTTTTCTATATAAATCAATATATTTGTCATTTGTGTAT GTATTTGTAGGACATTAAATATGATTAAGTATATGTATATTAATTACATGGAATAAT TTAATAAAAAGTAACAAAAAAAATACAATTGTTAGTATTATAAATATATATATATAT ATATATATATATGTTATTTTCCAATATTTATTTATTTTTTAAATATGTTATTAAAATTT ATATAAATAATTAAAAAATCTAATTAAGAAGAGGTTGAAAAAAACGTGAATATAGA TGCTTGAAAATGGTTTGGAAAAGTAGTCTGGTGTGGCAAGACTGCAAAACGTTTTAG CACAAATTATTATAATATTTTTATTGGAGTTGGTTATTATACAACTTTTGATATTTGT GTAACCAATATAACATAATTTCAATTGTCCATTTCATTTGATTAATATGTGATTTCAT AAAAAATTTGATTGTTTTCTAATATAAAGTATTGATCATAATTAATGAACCATATTC ATCTTCTATAAATATTCAAATCATAATAAATGAACTCTTATCATTTCCATAAATATCT CAATTTATTGGGTTGTATTGATTGTATAAATACGACGGGTTGTATTTGAAACAAACT CTATTTTTATTTTTAATAAAGCTTTGTTATGATATTATACTCACAAAAATATACAAGT CATTATTAAATTAAAATGATTTGAGAATAACTAATAAAATTAAGTCATTATTCTTTTA TATTATATTTCATATAATTTTATTAATTATTTAAAATATATTATCTAAATTATACAAT ATTGTTGATATAACACATTAATGGAAATTAATTTTTAAATTGGTTTATAAATTACAG ATATATCATAAATAATTACACTGATAGATGTAGGAATGATCTTACATGATTAACCTG CTAATATAAGATGATTTTGGTATATTATACCATTTTAGATTGTTATTTATTCATTTAA CCAGCTATCTATATCATATTTTTCAGTATTTGAATACTACTGTATTTTTTAACCAGAT TTTATATAAGATTGGTTAGAATTACCTATAATTAACCTTTTACTCGAAAATATTTTGA AATCTCTTTATCATGTTTCCTTTTAAACAATAAGAGTAGAATTATGACATTATTTTAA TTATATTTGATTTTTTCCTATTTTTTAATTGACATATACATAAAATATATATGTATATA TATATATATATATTTATCATATATGTGATAAGAAAATTAGCTTTTTTATTTTTAAAAT ATTATGAAAAAATGAAAATTAAAGTCAAACAATTTGGGAATTAATTTAGAAAAATA TAAATAATTGGAAACTGGAACTCATTCAAACAGGAACCACCCACCTTACCCTGTATA TATACATCCCCTTATTTCTTTCATTAACGGGCAACCTTCTCTCAGTTGCACTTCGTAG TATTACACACATACATATTCCGATACGACGGTTCTTCGCCGGAAAATATGGATGTTT TACAACTCCAAGGGCTATTACACCCTATGCCCATCCTATTTTACGTTGCACTCCCTCT CTTAACTTTCTTCCTTCTTTCCAGTTTTCGCCGGAAACCTCTTCCGCCGGGTCCAAGG GGGTGGCCGCTGATCGGGAACATGTTGATGATGGATCAACTAACCCATCGTGGTCTT GCTAGTTTGGCTGACAAATACGGCGGTCTGCTTCATCTCAAGATGGGCTTCAGCCAT ACAGTCGCTGTCTCGTCACCGGAAATGGCGAGACAAGTACTCCAGGTGCAAGATAA CGTCTTTGCCAACCGTCCGGCCACCATCGCCATCACTTACCTCACCTACGACCGGGA AGACATGGCGTTCGCCAACTACGGTCCCTTCTGGCGCCAGATGCGTAAGCTTTGTGT CATGAAGCTATTCAGCCGGAAACGAGCGGAATCATGGGATTCCGTTCGGGATGAAG TTGTCTCCATGATCAAAATCACGGCGGCTAGTTCCGGCTCCGCCGTTAACCTTGGTG AGCTCGTGTTCGGGCTGACCCATGACATCATCTACCGAGCCGCTTTCGGGTCGATTT CCCATGAAGGAAAAGAAGAGTTCATCAGAATTCTTCAAGAATACACCAAGCTTTTTG GTGCTTTCAACTTGGCCGATTTCATTCCATGGCTAGGGTTTATCGACCCCGCCGGACT GAACACCCGATTACCAAAGGCCCGGGGTGAGTTAGACGGGTTCATCGATAAAATTA TCGACGAGCACCTCCGGAAAGAGAAGAAAACCGGCGACGACGCCGACAACGATAT GGTGGACGAGATGTTGGCGTTTTACAGTGAAGAAGGAAAGGTGAACGAAGGCGAG GATTTGCAGAACGCGATTAGGCTCACGCGAAACAATATCAAAGCCATTATTATGGTG AGTTATTTTTTAATATTTTATTTTTGTTAAAATACCAAAAATAACAAAGTTTATGATC ATAAACATATTTATTAATTAATTAATTAATTAAATCATAACCGTGATGTTTGATTGGT TTGAGTTTGGCTCCAAATATCAAAGGTATTAGGAGGTCCAAGGTTCAAATCCAAGAA GGAATAAAAATTCTCTTATGGTCACGGAGGTTCAAATACGGTGACTCCGGGTTATCT GTAAAGTAGGTGGTCGTCCTAGGACTAGTCAGCTCGCATAGTGGGTTGTATATCCTG GTTAATAAAAAAAATATTATATATATATATTTTGCTTGAAATATAATCTAATGAATA TAAATATGTGTTAATCCACAAATTAAGTAACGTTTCCCCTTATAAAAGACCTTTGATT TAGAGTCAATTTGGTAACATGTATAACAATTAAATGAAATCATAAATTCTATTTATT TATAAAAAAATTAAATATTTAATACATATTTTATATAAAAAAAATATTTAATGCAAT TTATTTCTTTAGAAGCCGTAAAGTTAAGTGACCCCATTTCATTAAACTTTTTCTTCAT TTTAATAATTAATGATTTTAATTTATTTTAAAATAATCATCAAAAAACAAAATTTATA TAACAACCGATGTCATCTTCTTAATTTTGTTTTCACTTATAAAACAAATATTTAATGG TGAAGATCATGAATGATTCCATCTCCATGCTCTTGTTAACCCCAATTAATTGTCTTTT TTTTGGGTTTTTTTAATCTAATTAATTAATTTTGTGCTTATTTTATCCTTCAATTAGTA TATTATTTTGAATAAAAACAGATTGTATTAGTTGAAATGGGCAAACATCCACAATCT TGATCAAGTCATCAAAATGGGATATCGATAGAATTATATATATATATATATATATAT AGATTTGGGATCATATGAGAAAAGCATGTTTTCATGAGACTCGTGACACCAACTTTT TACATTTGAAACTTCATCGTGTTTTTTGTTGTGAAGGTTCAACTTTTTTAAACCTTCA CAGTGTTTTTGCTGTGCAGTTTCACGTGTAAAAATATGGTTTCACGGGTCTAACGAA AACAGTCTGGTCTGACGTGAACCCAACCATATATATATATATATATATATATGAAAA GATGACATTAGTTTTGCTTAATAAAGAATTAACATTTGGTAAATTATGGCTTTCTTAT AGGATGTGATGTTTGGTGGGACTGAAACCGTGGCTTCGGCGATCGAATGGGCTTTGA CGGAGCTCATGCATACACCAGAAGCACTCAAACGTGCACAACAGGAGCTCGCCGAT GTCGTTGGCCTTGACCGCCGTGTCGAAGAGTCTGATTTCGAGAAACTGACCTACTTC AAATGCATCATCAAAGAAACCCTCCGCCTCCACCCTCCCATCCCGGTCCTCCTCCAC CAGTCATCGGAGGCCACAGAAGTCGCCGGCTACCACATCCCAAAGGGAACACGAGT CATGGTTAACGCATACGCCATCAACCGTGACAAGAACGCTTGGAAAGACCCCAACA CATTCAACCCATCTCGATTCTTGGAAAATGGAGCTCCGGATTTCAAAGGAAGCAACT ACGAGTTTCTTCCGTTTGGGTCTGGCCGGAGATCTTGCCCTGGGATGCAGCTTGGGT TGTATGCGATGGAGATGGCGGTGGCCCACCTCCTCCATTCGTTCACATGGCAGTTGC CGGACGGGATGAAGCCGAGCGAGATCGATATGACTGACGTGTTCGGACTCACGGCA CCAAAGGCGACTCGGCTGGTGGCAGTGCCAACTCCTCGACTGTTATGCCCACTGTAT TAATCGACGAAGGGTCGGATCTTGACTTCCGAGACACTGAAAAATTGTTGATGTTGC ATGAACGAATTCGAATGGTTTTAAATTTTTTTTTCTTTTTTGTGGTCATGATTTTTTTT CGTAAAGCAAGATCGATATACAAAAAGATAAATAAAGATTTCAATTTCATGTACATT AATTCATAAACTCGATTTCAATTCCATATATTTTCATTCATAAACGATATCGATAGCT TTTGTTTTGAAAGGTACGTAGCGGAGCCATCCACATTGTACGGATAAGGCAAGTAGG TGGTATTCGGAGTTAAAAGTGCAAAGGCCTTTCTTTCTTGAAGGGGATGTTTGGTTC GGAAAATGAAGATGGTAGGTTGTATGGTTTAAGACGGATGGATACGTACCAAGTTA AGGAATAAATTATTTGAAACAATTTTATCATGTTAAATAATTTCATGACACTAAAAT GAACAATGAAATTGATGGTTTTTACGGTTTGTATAAATGATATGGTTTGCAAAATAT CCCTATCCCCCCTATCTCTCAATCTCTCTCTCTCTATATATATATATAGAGAGAGAGA GAGAGAGGGGGGGGGAGTGATCAAATACAAACCATTTAATTTGTACAAACCGTGCA AAGCTCATTCAACCAATCATAATTTTTTATTTTGTTAATTTTTTTTTGTAAATTTGAGA GGTTGATTAATCATTTTGATAATACAATTAAAATGAGAATATGGATAAAGAAAGAA AGAGGTTGTTAAATAATTTTATTAAATACAAAATAAGATTATTAAATTACTAATTTA CTGTTTTTATTTTATTAAAAAATAATATTAATTATTGGAAGTGATTTGCTAATATTAA ATCTCACGATTATGACAAGCTATCGAGTTCTTATTTTTTGAATATATATATATATATA GAGAGAGAGAGAGAGTTTACTTTGCGAACCACGTTATTTGTACAAATCGTACAAACT TCATTCAATCAATCATAATTTTTCATTTTGTTCATTTTTTTTGTAATTATGAGAGGTTG ATTAATCATTTTTATTGTTGAGGGTGTTAATCATGGATCTTATCATCTTCATTATTTTA ATTTTAGAGAAATAATGAAACAGTTTCATTAAAATTTAATTAAGTATTATATGAAAC AATTTCATAACCATATATAAAACGACTTCATCAAAAAAAATATTATATGAAACAATT TCATAATAATTTTTTATAAGATTAAACAATGAAATCGACGGAATAAAATGGTTTGTA TGATTTGTATAAATTGGGTAGTTTACATTTGATCGTTCATCTCTCTATGAGGGGATGT ATAGTGTAACGTCAAAATTAAGAATTTGATTTATATTGAAAACTTGAGAATCAATCC ATCGATTAGATGAAAAGTTATATTTCCAATGTTTTTTATATAGGTTGCAAGGCATAT ATGTAATTTCATAATTATGGAAAAAGTTATATCTCTTTTTTTTCCCTTAATTGTTTATG TAATTTACACTTGTATTCATTTACAAAATTAAAAAACTATAATTATTTTATTTATAAA TTATTTTCAAGATTATTTAAATAACTTTAATATATCAAAATATGTAGTCAAAAATCA AGATGAGTGCATTTGACAATAAAATGGTAATCAAGACGGAAAAAAAGTGAGACGTT CAATCTGTTAAGAAGTAAGGCATAGTTCTAGGAGTTATAAAAACCAGAAGAAAGAT GTTCTGGTGCATTAAAAACATAGTTTGTAGGTCACGAAAAGTTGCACGTAGGGTTTG AACTTTGAAGTTGAAAAATGGCTTCTGGTGCTGAAAAGTAGAAGTTTGTTACATTAA TTGAGAAAAAAAAGTTTGTTACATTATATAGAAACTAAACCAAAGTTGTTACATTTT GTCCTAAAAAGTAAAAAACTAAAGTTAGAAGAAAGTTCGGTTTGTTCAAAGTCTCAT TAACGTGGTTCAGATCTGGCAAGGTAAGATCGAACGTAGACTTGTGGTCTGGCT SEQ ID No: 108 >Artichoke_KVH92322.1 ATCTTAACTAAAGTTACTTTTCAGGTCGATCTGTATCAGGATAAAATTAAT AAATAATCGAAGTTTGATAACTTAACACGTTGTTTCTAACACGGAAACTAACTTCTA GAATTTCATCTGGGCTTCCACTACAACATAACATGACAATCATATTTCGAAGAGTCA TATAAAAGATATAATATACATCATTTCGCTTAACGTGTTTTTATTGATACAGTATAAT ACGACATTTAGTAGGACACCTTTTTGTACAACATCTTGTAGAAATAGTTAATTGAAC ACTTATGAATTGTTTATGAAATGTTTACTTGGTAAGCTCTTACCGGATCACTTACCTT ATTGGATAAACATGACAATGATCGACCTAGTAAAAGGGATGGCAATGATCAGTAGG CTTACCCGATAAGTAAGTTTGTTGACTCTTACTCAGTAAGCGTTTATCGGGTAAAATT ATTGCATATAGTGTCGTTTTAGTGGCTTAGAATCTTGCTTGGTAAGGTAATTGAGAG TGTTGACTCTTATCAGTAAGTGCTTACCAGGTAAAACGTTTGGGTAAACAACCTCTT AATTTGTAGGATCTGTAGACTGGTGTCCTATAAAACAGTTATTGGGACACTGATATG TATTACTAAATGTAATAGTAGTTAATCATATTTTACAACTACATAAAAAGTGTCCTA CGTTATACTCTAGCTATTAGGAATTTTTAGTGTTACATAAAACATGTTATTAGACCCT TGAATTTATTTCATAATTATAGAATTTGTTAGGTCGTTTAGCTTTGTCTTAACAACTT ATTGTAACACATTTAGATAAGACATCAATGTTTTGATCCTATAAATTAAAGGATCCT AAAAATAGGTTTGTAAAACACTACTACACATTCTAATAGGTGTATTTTGTTACAATT GTTCATAATATTTATTCCAATCTTTTAGCCACAACTTTTTATTTATTTATGTAAAAGT AGTATTTTGAAAATATTTGATTAATAGTCAAATAATAATGTAAAAAGCCTTCAACGT GTAGCTCAGTAGGCATAGAGTCAGGACGACTTTGTCCAAATACATGATAGGTCATG GGTTCTAACTGCCCTTGTTAGTCTCAACCATTAAGAAAGACAAAAAATATCCCCTTA CATCGGTGCGTATGTCCGTGTGATACTGATTGGTGTTATCGATAATTACTTTTTTTGT CCACATAAAACCATTTTGGGGCTAAAATAATATGGTGAACAAGGATGGAAACAACA AGGACATTCCAACCTTTTTGGAGGCCCTGCTACATCCAAAACTTTTGATTACATTGC ATAAATAAGATGACAGATGATATATGTCAAGAATAAAAATGGGTTAAACTTAAAAC GATTAACAAGTATATTTGGGATCCAAAATTTCGGAGGCCCTAATCAAAATCTCACAT TTAACATGTTAAGGGACGGCCCTGGAAAACAGTATGGTACGGGGCGGATAAAGCAT CCCTCGACCAGACCAGACCCGACCTCGAACCAGTCCTCGACTAGACTAGACCCGAC CTCGAACCCGACTAATCTCCGACGGGTTTGGAGGGAAGGAATCCCTAGAGGGTTTG GGAACCCATTGGGTACCCCTCTAATATATATATATTTTTTTAAATTATAATTAATTAT CACTGCATAGTATAAAGGCCGAGTCTTTTTATATCACATCGGATGCATATACATAGA GATACAACCACCCCAAATTAAGATGTAGGCCACTCTCTTGATTTGACGTTCAATCTT ATATATCATATAATAATAAATAAATAAATAATTAATTAATGCATTTCAAGACAAGCG GATTTAGTCAATATTTTCCATTCATTATTTCAGAAAAATAAGACTAATAATAAATAG TAAATCACTGTACACTTTCAAACAGGGTGTGCCCGATGAAACCTGTATATATACACC TCTTCATTTCACTCCTTAGGTAGCAACAACCAACCAGTTGCCACTTATCTCTCCACTT GAATCAATAATGGATTCTATCCAAATACCCATATCAATCTACGTTATCATTGCCCTCT TAACCTTTTCTTTTCTAGCATGGCTACGCCGGAAAAACCTCCCGCCCGGCCCTATGG GCTGGCCGGTCATTGGCAACATGTTGATGATGGATCAGCTCACCCACCGTGGGTTAG CCCGTTTGGCTGAAAAATACGGTGGCATCCTCCATCTCAAGATGGGTTTCCGTCACA CCATTGCCGTGTCCTCGCCGGAGATAGCTCGCCAAATTCTTCAAGTCCAAGATAACA TCTTTGCTAACCGTCCCGCCACTATTGCCATCACCTACCTCACCTACGATCGTGTTGA TATGGCGTTTGCCGACTACGGACCTTTCTGGCGTCAGATGCGTAAGCTTTGTGTGAT GAAACTGTTCAGCCGGAAGCGGGCGGAGTCGTGGGATTCCGTGAGGGATGAGGTGG ATTCCATGGTGACCACCACCGCCACCAACTCCGGCTTGCCGGTAAACTTGGGGGAGC TTGTATTCGGGTTGACCCATGATATTATTTATCGTGCGGCTTTCGGGTCGACGTCGCA TGAAGGTAAAGAGGAGTTTATTAGGATCCTACAGGAATACACCAAGCTTTTTGGTGC ATTCAACTTGGCTGACTTTATCCCATGGCTCGGCTTCATTGACCCGGCTGGGTTGAAC ACCCGTTTACCTGCGGCTCGAGCTGCGTTGGATGGGTTTATTGACAAAATCATCGAC CAACACTTGGCAAAAGAGAAAAAGGTCGGCGATGAAAATGTGGATAACGATATGGT TGATGAGATGTTGGCGTTTTACAGCGAGGAAGGAAAAACCAACGAAGCCGAGGATT TGCAGAACGCCATCAAGCTGACCCGAGATAACATCAAAGCCATAATCATGGTAAAT TCTATAAACTCATTTTTTAATAATTATGAATGATAATTTATTAAATTTATTTTCTATTT TAGTTTATTTTAAATAAGTATATTTACCTTTAATTATAAAATGGAATTACTTTATTAT AATTATCATTTACTTAATTAAAAAGTATAATAATTACGTATTTATAAAATTATATGAT GATATATGTTTTGGGAGGAATGGGTATTTATTTACATCATCTTGTATTCTATTAAAAG TAAAGAAAAGCTTTTGATTCATGGTAAATTATTACTAACACAAAAAATTACATCATT TTGATGAAAATTTTGTTGAATTGTTTGCAGGACGTAATGTTTGGTGGTACAGAGACG GTTGCTTCTGCGATTGAATGGGCCATGACGGAGCTCATGCATACACCCGAAGCGCTC AAGCTTGTGCAACAAGAGTTGACCAACGTTGTTGGTCTTGACCGTCGTGTCGAAGAG TCCGACTTCGAGAAACTGCCCTACTTCAAATGTGTCATCAAGGAAACCCTTCGTCTG CACCCTCCGATCCCCGTTCTGCTCCACCAATCGTCAGAAGCCACGGAGGTTTCCGGC TACCACATCCCAAAAGGGACACGTGTCATGGTCAACTCCTACGCCATCAATCGTGAC AAGAACGCTTGGACAGACCCTAATACTTTTAATCCATCTCGTTTTCTGCAAAACGGA GCCCCAGATTTTCGGGGAAGCAACTACGAGTTTCTCCCATTTGGGTCGGGCCGAAGG TCGTGCCCAGGAATGCAACTCGGGTTGTACGCAATGGAAATGGCAGTCGTGCACCTT CTTCATTGTTTCAACTGGGAACTACCAGATGGAATGAAACCAAGTGAAATCGACATG GGCGACGTGTTCGGGCTCACAGCCCCAAAGGCGATACGACTTGTAGCCGTGCCGAC TCCTCGTCTGTTGTGTCCGTTGTATTAAAACTCTGGTTTTTATAATATTATTTTTATAA AATAATGTATAAGAAATATATATAAGAACCACAAAGATTTGATTCTATACCACTTGT TCATAGGTCAAACCTAATTTGTGCATCTGTTTTTTTAATTGTATTTATGACTTTTTAAG CAAAGAAATTTCAAAAGGTTGGCAAAATCATGCTTTCCCAAATTAAATATTTGAAAC AAAATCTATGAGGGAGACATAGAAAAATGAGCACAAACATAATTGGAATTATTTAT GTAATATAAAACTAAACACTTTTGAATAAATTTACAAGTACAAAGTTTAAATACCTA GCTACGTATATAAATTTTAAATAAAGATACGAGAAATCATAATTTACGTTTTAAAAA ATAATTGATGTAATATACACGATGTTAATAATGGAACGTGGGTGAAATTTAACGTGT TGTATTCTTAAATTAGACGTACGGATTTTTAAGTACATGTTTTAAAAAAATAAATTTA TATGATAAAACGTGTTTTAAAAGTGTAAATGGAACGAAAGTATGGTTATTATTGACG TAATTAGTCAAAGTTATATATTTGTAATAAATTAATGATGATTTTCATATCTATTCAC CACAATTTTTATATGCTAATTAAAAATAACATAATCGTTTACCACAAGAATACAAGT TTGGGATCAATGTTTTCAACCACATGATGATGATGAGGATGATGTTGATGTTGATGT TGATGTTGATGATGATGATGATAGGGATATTTGAAGTGAATGTTTCACTTGTGTAAT GCCATTTTCCATGATGTTGTTGGGATGGTAATGTCATCCATGATCATCCATGTATAAT ATATAAAATGTCATTTCTTTAACATTATAAATCTAGTTTTTTTTTTCTAAATTTAATTG AAATTTAAAATTTTTAATTCCCGACTTTTCTTTGAAACTAAAGATAAGATTGTAATGA TATTTAATTTCAAATTCTATTAAATCTCACAAACTAGACGAGTTAGGGATCGTTTACT TAAATACTTATCAAGTAAGAATTTATCGGTAAAATTAACACTATCATTTACTTACCG GACAAGATTTTATTCACTAAAACGCATCGTATGCAACAATTTATCGCGGTAAGCGCT AACCATGGTAAGAGTCTTTGTCCTCACTTACTGGTTAAGACTCGAAATTCTTCTTTTC GCTCTTACCGGGTAATATTCTTAGTCTTTGTCATATTCATTCGATAAAGTAAATTGCT TTGGTAAGCGCTTACCCAAGTAAGCGTTTTGTAAACGGCACCTTAGTGTTTGTGGAT TTATGACTTAAATCTCACAATCACGGGCAATTTCTCTCATGCTACACACACTTGTACA TAAATTGATCGTGAAGGCAAGTTTCAGTGTTTTATGAGTTTTGATGTCGAGTTGACA ATGTGTATGTCATGATAAACTTCCAATTAATTGTTCCTTACATTCGTTGTGTAAGATT TAATATTTTTGAGATGTTTGATAACGAGTTTAGTCGTAGTAAGGCCCATCAATACAT CAGTTTGGTCGATCACATTGTATATGTGTCACAAAGTAAGAAAGAAAACTCAAATCC GAGTTTCATATTTCTATCTCGGCACATCTTTCATGCCAAATAATAAATGTAACTTAGG CCTACAAAGCTATGTAAAGAATGACAAAAAAAACGAATAAAAACAAGCCTATTTCA GTTTCGTAAATACAAATGTTACCACCATTTAATTTATTCAAGTTTTTGGAAAACAAA AACCGTACATTGCATCCAAGATAAGCACATTTTCAATAACTTGTCATCTCACTACAA CAAAATTGGGTTTATAGGACGCCCCCAATCTCGAAGTGTCCCAATAGACCGTTTTAT AGAACTAAAATATAAAGTGTTCTATCTAAAGACGTTGTAATAAGTTTATATGACGCT TTTGGACGTCTTAACAAGTTTTTGAGGACATTTTTAATACAAAGTGTCACATTAGCA ACTTTATAGGACACTTTGA SEQ ID No: 109 >Radish_GSRAST00026355001 TAAGAACTTGGAACAGACACAAACAAAGACATGAAGTTGGTAAGGTCAG ACTATTAAGAGAATCAATATATTATTCGATTTAATCTATATTATTAAAATTGAAGTA CAAATTAGATTTTTTGAAACGAATAACAGTTTTTTTTTAAAAAAAAAATTGTTTAGA AACATGGATAACAATTTTTAAAAGTATGTTTGGAAACATGAATATCAGTTTGAAAAA GTTTGTTTAGAAACATGGATAAGAGTATTAAAAATAATATAACGTTGTTTGGAAACA TGGATAGTAATATATTAAGAAAAAAGTAACAAATTTTGTATTATTAAAAATACTGAA AGTCTATTATATTATGATAAATTATCTATTTGGAAGAGTTTTAAAATATAAGAAAAT GAGCTAATATAATTAACAATTTTTTTTTTGTCTAAAATAATCATAAAACAAGATTAA AATTTTATATACATATTTCAAATCAAAATAATAATTTACACTTGATTTATATCAAAAT TGATTCAAAAATATACATATATTCAAAAGCTTATTTTACTAAAATAGTTTCCACTAA CCATTATAAAAAATATTTTCAATATATATAAGAAAAATACAATAAAAAGTCCATTAA TTTCATTATACCAACTTAAATTATGGTTTTAATATTTCACATTAAGTTTTTAAAATAC AATATATGTGATTATTTATATGATGGTATGTATTAAATACTATTAATTATATGATTAC TTATATGATGATATATATGAAATAAAATTAATTATATGATGACACAAATATGATATA TAATAGTGATTAGGGGTTAGCGTTCGGATACCCATTCGGGTTCGGTTTGAATTTGTTT GGATTTCTGGTTTCTGGGATCAACGATTTCAGTCTCATTTGGATATTTCTAAATTTTG GTTCAGATTCAATTCAGATCTTTGCAGATTCGTATTTGATTCAAATCTTTGCGGGTTT GGTTCGGATTCAGATAACCCATTTAAATTATTTTTCAATTTTTAGAATATTTTATACT TTAAATTTCTCAAAATATGTAAATGAAATAATATATTACATATAAGTTTGAATAATA TACCAAAGAAACTCATACTAATAGAGCGTTAACGATTGTGAGTTACACCATCCAGTT TTGAGTTTTGACCATCGTCGTTAAAGTGAAGTGGAAAAATAGTTTTCTCGGATATTTT TGAAAATTCTCCGATTTTAGTGGATCATTAGACGATAATCAAATCTCTTTCGAATAT ATTCGGATACCAAGATCATTAAAAACTCATGCTTTTAATATACAGATTTTCTATTCTA AACACCAAAAACGTAAAGAATATAATGTCTCCAAGAATATAACTTCAAGTTTATATA TTAATATACTTTTAATATACATTTAATAGTACATTTTTTATTGTGTGCAAAATAACCT TGCATGTAACAATAAAAGTAAGGGAACCTTGTTAGTCTATCAGTCTATTTCTAATGT CTAAGCTTTAGAGCTATTAATTGATATTAATAATTTATCTAGACCTTGTGCTCTGTGG ATATCTTTAGTAATGTTGGAAAGTAGAAAAATTACAATTGTTTTACACACTTGTATA AATATAGCTGTCGAAGTCGCGGTAATTCTTATAACTAATTGTTTCAAATTATTATGTT ATTGATGGAAAAGTATATTTATTCAACCTATTTATTCTAGGTAAAACCAAGCAGTAC TCGTTAATATTTCAACAGCATTTTTTGTAACTCACCTTTTCTCTAATTTAAAATCCACT AATACCAATAATGATCCATTATATTTCTATATATGCAAGAATATCCATTAAAACCAG TCAGTATATTATTTGTTTCCATATTAAACAAAATAATAGTAATAATTAAAAAGGAGG TGTATGTATAATTGTATACATATATATGAGTCACGGAAATGAAAATCCCCGTAGAAA ATTAGAAATATGTCAAGAAATGGGACCACTCCTTGATTATAAAACCTACCTTTCGTA ACACATCCCAAAATGGCGAACTTTGCCTGATCAATTCTTGAGACCCTCCACAAACAA AAGAAAAAGCATTTCCCAAAAAGAAAAAGAGACTAAATGGAGTCTTCTATATCACA AACACTAGGCCAAGTATTAGATCCCACCACGGGTATTCTCATAGTCGTCTCAATTTT CATCTTCATTGGCCTCATCACACGGCGACGAAGGCCTCCGTACCCACCCGGTCCACG TGGTTGGCCCATCATAGGCAATATGTCAATGATGGACCAACTCACCCACCGTGGTTT AGCCAACCTAGCTAAAAAGTACGGTGGCTTGTGCCATCTCCGCATGGGATTTCTCCA CATGTACGCCGTTTCATCACCAGACGTGGCTAAACAAGTCCTTCAAGTCCAAGACAG CGTCTTCTCAAACCGACCAGCAACTATAGCTATAAGCTATTTGACTTATGACCGAGC CGACATGGCGTTTGCCCACTACGGACCGTTTTGGAGACAGATGAGGAAAGTTTGTGT CATGAAGGTGTTTAGCCGTAAACGAGCCGAGTCATGGGCTTCTGTTCGTGATGAGGT GGACAAAATGATCCGCTCTGTTTCTAATAACGTTGGTAAGTTCGCTCGCGTATTTAC ACTCGCTATCTGCAGTTGAATATTTAAAAATGAATAATCATTTTTGTTAGTTTATTAT GCATTTGTTTTCTTTGATATATGTATTTTAATAGTCAACCAAAAAAATTGTAGGCAAG TCTATCAACGTTGGGGAGCAAATTTTCGCCCTGACCCGAAACATAACTTACCGGGCA GCCTTCGGGTCAGCTTGCGAAAAGGGACAAGACGAGTTCATAAGGATCTTACAAGA GTTCTCTAAGCTTTTTGGAGCCTTCAACGTAGCGGATTTCATACCTTATTTTGGGTGG ATCGATCCACAAGGAATAAACAAGCGGCTCGTGAAGGCCCGTAATGACCTAGACGG GTTTATTGACGATATCATCGATGAACACATGAAGAAGAAAGAGAATCAAAACACAG CTGATGATGGAGAAGTTGTTGATACCGATATGGTTGATGATCTTCTTGCTTTTTACAG TGAAGAGGCGAAACTAGTGAGCGAGGCAACAGAACTTCAGAACTCCATTAAACTTA CCCGTGACAATATCAAAGCAATCATCATGGTAAATATTTTTCCCGAGGCACTAGTAA TAGTCATTATTCTTAATGCGTCGTTACGTCATAAAACTTATCCATTTAACTGGCTGTT TTTCTCTTAAAGTATATATTTTCTGTTTCTACAAGTAGTCAATTGATAGTAGAAAAAT ACAAAGGTTTCATATCATACGTAAATAAAATAACTGCAAATATCATAACGTCATGTG AATTGACTTTTTTTTTTAAATAGGACGTTATGTTTGGAGGAACGGAAACGGTAGCGT CAGCGATAGAGTGGGCATTAACTGAGTTATTACGGAGCCCCGAGGATCTAAAACGA GTTCAACAAGAACTCGCTGAAGTAGTCGGACTTGACAGACATGTGGAAGAATCAGA CATCGAGAAGTTGACTTTTCTGAAATGCACACTCAAAGAAACCCTAAGGCTCCACCC ACCGATCCCACTCCTCCTCCACGAAACCGCAGAGGACACTGAGATCGACGGTTACTT CGTTCCCAAGAAATCTCGCGTTATGATCAACGCGTTTGCGATTGGACGCGACAAGAA CTCTTGGGTCGACCCCGAAACGTTTAGACCATCTAGGTTTTTGGAACCGGGCGTACC AGATTTCAAAGGGAGTAACTTCGAGTTTATACCATTCGGGTCGGGTCGTAGATCATG CCCGGGTATGCAACTCGGGTTATACGCACTTGAACTAGCCGTGGCCCATATATTACA TTGCTTCACGTGGAAATTACCTGATGGCATGAAACCAAGCGAGCTTGATATGAGCGA CGTGTTTGGTCTGACGGCTCCTAAAGCCACGCGTCTCTACGCTGTCCCGAGCACGCG CCTTATTTGTGCTGTTTAAAGTAATGGTTCGAAGCACGTGGACGGTGAAAGGAAAGG TGGTTGGTATGGTTCTTGGAAGTGGTGTGAGAACTCAAAAGAAGCCCTGAAGATTTG TGGATGTTATATAATACTATATGTTTATGTATTTGTGTACTAATGAATTAAAGTTATG TATCACGTGTGTTCTGGATGAAACATAAAGTGGCTCTTTGTTTCGTCTTTCATTTTCT TTTGGGAAATATTTTCCTTGCATGAAATGTAAACACTGAAAAATAAGATTTTTTTAC AACTAATTTGCATATTACAAAAAAGTATACTAATGAATTAATGATATAAGGATATTG CATTTGCTGGAAATGTTAAAACATAGGCATTTCCATCACTGTGAGCCACACATGAGT TTGGCAACCGGTGAACTAAGTGAATATTCATCAATTTTAAGATTTGAGAAACCTAAT GTAGAGAATATGGAGATGATAACTTGTAATTTTATCCTAAATTTTCGTTACATTATA ATGATAATGCTAGTTGTCAATTAATTAATTGTTATATAAGAAGAGTTTTGTTAAAAG AACGAGTTTCACAGTGGAAGTTTTATTGTACATATTTTCTTGTTTTATTTGATTTTGGT AACGCCCGTCTTCTTTATTGAAAATATTTATATTTTCCTTTATATCATTAGTATGGAA AAATATTGTAGTCTTTATCGAAACGCATCTATTTTACCTGAACTAGAAAATTCTGAC CATTATGTCATAGACCCTTCATTTGGACGCTGTTGGGACTAAACTAATACTCTCTCCG TTTCATATTATTTATCATTCTAAGTTTATGCACACAAATTAAGAAAATATTTAATTTT GCATATTTTCAAAATAAAAGCATTATCACCAATACATCTAACCATATATCAACTAAT AAAAAATAAAATAGAGAATATTTTCAATAAATTTTGCATTGAAAACCGAAAACGAA ACTTATTTTTAAACGAAAATTCTAAAACGACAAATAATTCCAAACGGATGGAGTATT ATATTTGTTAATTGAAAAAATCACTTATACATGTATGTGTTGATTATCTAGGGGTTGA CTGTGGAAACACAATTTTTGTGATTAATAACGGTTGTTTCCAAATCGTTTCAAACCAT TCAAAATCTCTTAAAATCAAAGGTTAGTTTCTGAATTACGGACAGTTATGGTTGAAT AAATAAATAAAAAAAATTTAAATTTTTTTTTTAAACTTTAACTTAAATTTTAAAATGA AGATATTATGTATAAAATATACATAAACATTTATTTTTAGCTTAAATCATAAACAGT ATCATAATTTATTTTATAAAAACTTTAAACTAAGAACATTCACTATAATTTTTAAATA TTAATATATATACATATAAAAGGATATGTTCATATATAAACGAAACAAATATTATTT TAAAAGTTTTAATAAAAATCTTCAAAATAAATTTCATTGAAATTATAACTTTTATTTA AATTAAAAAATTAAATTATCATGTATTGTTAATAATTATACTATATTAATAATTAATA TATTTTATCATATAAGTGTGTTTCTGATATTTTTATAATGTTATATATGTTAATATTGG TAATTTATTATTAAATCTATACGATAAATCATAAAAATCAGTTATAAATATTTAGTG AACACGATAATTTTCAAACATTGTACCAGTCATATAAAATTTTATATGATTAGTTAC ATTTGAAATGGTAACTATCTATATTCACAAATTTCTGTATCCACAAACTCATACATCC AACCACAATCGCTGCATTTGAATCCGTAAGATCCTTAGTTTAACAATATAGATAGAT ATCAAAATCTAATTCATGCATCCAATCACAATCGCTGCTTTTAAACCAGTGAGACCT TTAATTTTAACAATATAGACGATCAGATTTCTAGATAGATTTCTAGGTAGATGTCAA AATTGTATCTAAACTACTCACTTGCAAAATTGTAACAACCAGAATGCATCAAGCAGT GATCGATCCCAACTTCAACTACTTTGACGAAATCAATAAATTACAATTACTTAGTCT ATTTTCCGTAGCTACACGTAGCGCGTCCATGCGTGGACTATTGCATATCACAAAATA ATTGCATATAATATCATCATTATCAGTATTTAATGTCCGAGAAAAAAATTCAACGAT ACAGAAAATTTCTAGTATAAATTATAAACAAAGTCTCTAAAAACTAGCGGTGCCTCC TTGACATAAAACATTTTTTCAGTGGTG SEQ ID No: 110 >Radish_GSRAST00007419001 TATTGTTTATTAACATTTGTATATTTCTTATAACAATAAATTTAAACCGTTA ATCCTAAAATTTTCAATGTGATATTTTTAATGCAAATTTCAAAATTAACATATTTATT TATTTTTATATTGTACATAGTTTAATTTAAACTAATATGTATATAATATGAATATATA TTAAATGAGAATTCATATTGAACTACTTTCTTTAAAACATATTGAATGAAATCATTA CACCGTCCACCTTAAGGCACAACAATATATCACTGTATTAACTCAAATACATAATTT TTGTGATTCCTCTTATACGAAAGGGTCAAAATATGAAATCATGAATCTTTGCACCTT GTAATATGAAATCAAACAAAAAAAACGTTTCCCAATTAATATATATGGGATTAGAG TAATCATATAAATCAATATATTATCTCTTGTTTATTTACAATTTTTTATGGTAAATAT ATCAGAATAACTATTTTATTTGATTGGGTCAGATGAGAACTATCTCAATAGTAAGAT CACCAACCTAAGAGTATTGCTTCCACAGTTGAATGATTTTGACATTGATCTCCCACCT AAACTTGAATGGTTTCAAGTCTGAAACGGGGGGAGGGGAGTAAAAGAGGACACCG AACGTGTTCTAAGAAATCTATGTGGACCACTCACATGTTTTTTTTATGTGTTGACCTT CTAGCAAACCAAAACAACCTTCTTATATAGTGATTTGTTCTTATTTTTGTTTACAAAT CAGAATGATCGTAAGCTTTATACCAGCTTCCCATAAATAATACTCCACAATGACTAT ATGGAAAACTGAATATAAATTAGCAATTTTCGTGTATCCGTAAAACTCATTATAGGA AAGTAATGATCTCGTGAATATATTCTCTAGTTAATGTGTTGCTAACAATGCGCGATG TATATTCTTTGATTGACTCTTCAAAAATTAAGTTAATGTGACAGTGAACTTGGTGGTA TTTATATAGAAGCGCATTTTAGGAATGCTTTTAATTTGCCTTTGACTAACTAAAACCT GTATCATTAGCAAGTTAGTGAAATTAGGCATATACAAAATAATGATACATACAAAA CCGTTCAAAATTCCATCTACAATTCTACATATAAAGAAAAATTCAGAATGTACCTTC AGGTGAGCATGGCAATACAGAATTATTATACCCTACATAGAAAAAGAAAAACCACA TTAAATATATTTAAAGATTAGTTTTACGAAACTATCAGTAAAATATCAAAACATGAT CATAAAGATACAAATGTATATTTTAACTCTATAGTCCTCACTCCTCAATGACTATATG GAAGAAAAAAGGAAAAAAAATAGAGGCTTCTCTATAGAAAATTTAATGGTTATGTT CAAATGTATTATCGATAGAGAAAGAATAAAATTTAAAACTATATAATAAACCTCTTG TATCAAAATACTATGATCCAACTCAATAAACCACAATGACTCAAACATCAGCAAAG AAATAAAGTTTGGTTTTTCTATAAAAATAATAATGGTTACATAGAAATACATCGTCG AGTGAAAATTCATGGTCAAAATTAATTTGTTTATAGATACAAAACCATAAAATAGAC CCTATAATATATTTCGAAAGTACAACCGGACTCAATAATCCACTATGTCTAAAAATC CTTATAGTAAACTATGTAATAATATGTTTCCGAAAATGGTTGGAATCTTTAGACACA AGTAATAAATATATTTATGACTAAACGTTCTAACACATAACGTTACGTATCATAGTG GGTTACATTGAGTTATCCAAAGGACAATTGAATAATATATATTCAATGGCATAATAT CGTAAATACTCTAGTAATTTATGTCTACTTCTATAAAAGGGCTGAGAATGCTTGTGA AGATGCCACATCAGTAATGGCATTTTTGTTAATCATACATCAAGCAAAGGTTAATTA TTAAAAGTGCTCCTCAAATAATAAGAAAGGGATCACACTTAGAAATATGTCAATAA ATGGGACCACACTTTGATTATAAAACCCACCTCTCTAATCACATCCCAAAATGGCGA ACTTTGCCTAGACCTCTTACAAAGAAAAAAGAAAAGAAAAATCAGTATGGAGTCTT CTGTATCACAAACACTAAGTCAAGTATTCGATCCCACGACGACTATTCTCATCGTCG TCTCCGTTTTCATATTCATCGACCTCATCACACGACGGCGAAGGTCTTACCCACCCG GTCCACGTGGATGGCCCATCATAGGCAATATGTTAATGATGGATCAACTCACCCACC GTGGTTTAGCAAACTTAGCTAAGAAATACGGCGGCTTGTGCCATCTCCGCATGGGCT TCCTTCATATGTATGCCGTCTCATCACCTGATGTAGCTCGACAAGTCCTCCAAGTCCA AGACAGCATCTTCTCGAACCGGCCGGCAACGATAGCTATTAGTTATTTGACTTATGA CCGAGCCGACATGGCGTTCGCTCACTACGGACCGTTTTGGAGACAGATGAGGAAAG TGTGTGTCATGAAGGTGTTTAGCCGTAAACGTGCCGAGTCATGGGCTTCTGTTCGAG ATGAAGTGGACAAAATGATCCGGTCGGTATCTAGTAACGTTGGTAAGTTAGTTATAT GCGGCTAAATATGTAAAAACTAAAAACAACAAACATTTTTCTCTCTTTTATACGTAT TTTAACAGGCAAGCCAAAATAAATTGTAGGTAAGTCAATAAACGTCGGGGAGCAAA TTTTCGCCCTGACCCGAAACATAACTTACCGAGCAGCGTTCGGGTCAGCTTGTGAAA AGGGACAAGACGAGTTCATAAGAATCTTACAAGAGTTCTCTAAGCTTTTTGGAGCCT TCAACGTAGCGGATTTCATACCATATTTTGGGTGGATCGATCCACAAGGGATAAACA AGCGGCTCGTGAAGGCCCGTAATGATCTAGACGGATTTATTGACGATATCATCGATG AACATATGAAGAAGAAAGAGAATCAAAACACTGTTGATGATGGAGATGTTGATACC GACATGGTTGATGATCTTCTTGCTTTTTACAGCGAAGAGGCCAAATTAGTGAGCGAG ACAACGGATCTCCAGAATTCTATCAAACTTACCCGTGACAATATCAAAGCAATCATC ATGGTATTTTTTTTTTCAAAAGACCACTAGGCATAGTCATTATTATTAGTGCGTCACA CCACAGAAGTGATATCCATCTCAAACCACTAGTTTCATATTTTTGTCTAAATCAGGA AGGTAGCTTTCTGTATTTACAAGTAGTCCATATGAATTAGAGATCTTGAGTAAGCAT TAGGGGAAATGACGTCATTTACTGATAGTAAGAACTCTAGAATATTAAATTTCAGAA AAGACCTAAAATACAAAACATGCAAAAAATATGTACAAAGGTAATATAAATCACAC GTAAATATAAACTGACCGTCTTTGAGCTAACAATTTATTTATTTTAACACTTTAAAAC TTAATTTGAAATTTGATATAAAATAAACCTAATTTGAATTGATTTTTTGAATTTAATA GGACGTTATGTTCGGCGGAACGGAAACGGTAGCGTCGGCAATAGAGTGGGCCTTAA CGGAGTTATTACGGAGCCCCGAGGATCTAAAACGGGTCCAACAAGAACTCGCCGAA GTTGTCGGACTTGACCGGCATGTGGAAGAATCAGACATCGAGAAGTTGACTTTTCTG AAGTGCACACTCAAAGAAACCCTAAGGCTACACCCACCTATCCCACTCCTCCTCCAC GAAACCGCCGAGGACACTGAGATCGACGGTTACTTCGTTCCCAAGAAGTCACGCGT TATGATCAACGCGTTTGCGATTGGACGTGACCCTAAGTCTTGGCCTGACGCCGAAAC GTTTAGACCGTCGAGGTTTTTAGAACCGGGAGTAGCGGATTTTAAAGGAAGTAACTT CGAGTTTATACCATTCGGGTCGGGTCGTAGATCGTGCCCGGGTATGCAACTCGGGTT ATACGCGCTTGAGTTAGCCGTTGCTCATATATTACATTGCTTCACATGGAAATTACCT GATGGGATGAAACCGAGCGAGCTTGACATGAACGACGTGTTTGGCCTCACGGCTCC TAGAGCCACTCGTCTTTTCGCCGTGCCTAGCACACGCCTGATTTGTGCTGTTTAAGTT ATGGTTCGTAGCACGTGGCGGGTGTAACCCAACGAAAGGTTTGTATGGGTGTGAGA AGTCAAATGTAGCACTGAACATTTGTGGATGTTATTATATGTGTGAATGTGTATCAC GTGTCGTCTGGATGAAAACATTAATGCTCTTTTTCGATTTTCCTTTTCTTTTGTTGGGA TTTTTCCTTGAATGAAATGTAACTGGTAAAATAAAGTTTTTTTTTCTACAATTACCTT TGCATATTACGTAGGTAAACAAACTATTAAGAGTGCATTTGTCAGAAATTTTATAGC CTAGGCTCAGATTTCCATCACTATGAGTCTATGACTTACAAGAGTTTGGCAACATGT AAAACCAAGTCGCTTTTCAAAAAAAAAAAAACATGTAAAACCAAGTTAAAAGCTCA ATTTTAGATATGAAGAAGCTGCTATATAGCCTTTAGTCAAAAAAAAAAAAAAAAAG AAGCTGCTATATAGGGCAAGTTGGAAATCATAACTTGAATTTTAAATTTTAGTTATT GTTTGTCACTTCTCAGTTTATATGCATGTTAAAAAGCCAAATCACCTTAGTTATTAAA CGAACTAGTCACTTGTAAAATATTTTATATATTATCACTACACCTACCTTGACGAAA GCAATAAATTACAAATCACTTAAATACGTTAGATTTGTAGTCGATATACACACGTAG CACATTCATATACATACATACGTACGTATGTATCATACGTGGACTATCGAATATCAC AAAATAATTGCGTATATCGGTATATGTATTATTCTCAGTATTGAATATGTCACAAGC AAAATATATAACCAATACAGAAAATTTAGAAAAGATAATTATTGCCAGTAACTAAC AAACAAGCGGTGCCTCCTTGACATACATTTTGTGTGTGTGTTGGAAGCTTACGAAAA CGACGATTTTACAGACAAGCAATGTGTTGGGAAGAATTGAATAGATACCGTAAAAG TAGCTCTAAGCCAAACTATTGTTGAAGCTTAACTATCTAAGTGACATATTTGCAAAC AGTGGCGGAGCCAATGTATTGGTAAATGGATCAATTGACCCATGTGAATTTCTTATT TTAATTTCGTTTACTTGTATAATTCTTTAAAATCAAGATTATTATTGCAAATTTTAGC TAAATAATCTCTATGATCTATGTTAACTTCAGAGTTGACTCGCCTAAAAAGTTTTCTT AGCTCCTCCACTATCTTCAAAGAGGTTGGTTCGAGTAGGGCTTGTCTTTGTCTTCTAG AGAAGCCAGCTTCTCGACCCATCAACCATTCAAGTCATACTGTTTCATTTTTTTAGAG AAGCCAGCTTCTCCTTGACCTTGCGCTTAAATTTTGGCCTTTATTTTTTTCATAAATA GTTTTACTTCTGATTGTAGGGACAATTCAGTCAGGCGACCCCATTTCCTTTCATTGGT ATGGATACTTTAAAAAAATGCAGTGATGAGGGGATTGGAATAGATCTATATAACAG TTGAGGTTGAGCAATGCATGCATGGTTATAATTGTAATAGAAGAACATAACTTGACA CCCTCGTAAATGAGACAGAAGCGCTGTTTAAAAACATTGTTACTACTAACTTATGGA GTTATTTTTAGTTATTTTAACATGGTAACACGATTAAAAGAGAAATTAATCGGACCT CAAAGAAAAAAGTCTTCTTTCAGACATAAATACAAACATCAGAATCCACATTTTCAT TTTTCCTTTTCGACTTTTTTTTTGTAATTTAACCTTTTCTACTTTTTGAGTAGAAAAGG ACACGAGAATAGTAGCTATGAAAGACCAGCATGGTCAGAGAAAACGGTAATATGTG GTGGTGGACTCCGCACGACGGCGTTTCAAAACAATAACAACGCATAAGTTGTCGTCT TTCACCGGCGTCGAACGTTCAGACAAAGACGATGACAATTAACAAACAAACAAAAT AAAAGAAACCCTTAATGTCTACGTACAGTTAATAACGACGCTTTTTTTTGTTGTCGTC TGTAATTCAGAACATGTGAACAGGATAAAAATAAATGCGAAGACAGAAGGTCCTAT TATTTGTATCATATACGAATCTGTTAGGATCTCACATCTTTGAGTTTATAAATGGAAT ATAAACAATATGAAGAGAGATCTAATGATTGTCAAATTTTGAGTCTGAATTGCTTAC ATAAAATCACCATACCTACGTTTGTCGAT SEQ ID No: 111 >Radish_GSRAST00001088001 CAGATTCACCATGGCCAAAGAACAAATGAAACATTAAGAAAGAACTCAG ATTTTTGGCATCTAAGAACACAAAGAGAGTCAAGAACAAAGATGAAACTTTGTCCA TCACAATTTACACAGATACAAATTAGGGCATATAAAAATATGTTTAGATCGAAATAA ACGAGGAGAGAGAATTTGGTACCTCTCGAGTAACTCGCGGAAGGAGTAGAGAGAAG AGAAGGGTCGGGTCTTTTCCACCGTCTGCTCGTTCTCAGATCTATTAAAAAAACAAA CATATCAATATAAATAGGAAGAAGAGGAGGAAGACGAAGGTCACGAAGCCAAAGA GGAGGAAGACGAAGAGATGTCGACCCGTGGTGATGGTGAGGAGGTGAAACCGGTG AGGAGATGGAGAAATGAGTTGATTGTTACGGAGAAAGAGATAGATTGGAAGAAGA ACATTGGAAGAAGAACAATCCAACGAAGGAGAGAGGGAAAAAGAACAAGAAAAG AAGAAAGAAACAAAAAAAAACAAAAAGAGATTTAATCTGGACCCTTCATAATTTTA ATCTAATGGTTAATATTGTCAATCCACGCAGCTCATTCTTATTGGTTAAGAACAGAG AGGTTTGGAGAAAATAAAAATACAGAAATAAAAAAATCTGTGTTTTATTTATGTTGT TTAGCTATTATTAATGTCTATATTTTTTTTAAAAAAATAGTTTATCTTTTTAAAACAG TGTATGATTCTTCATATACTTTGATCATTTATTTTATAAGAAAATGGTTAGATTTAAA TGTAAGAGTTTATGGTTTTGTATGTAAGTTTAAGTTTGGGGTTTAGGGTTTGAAGTAT GATATAGGATTTGAGTTTATATGATATATGGTTTGAGATAAAAATTTGAAATGTTCT ATATAGCTTGAAATGTTGTATATAGTGAGAAATATATTTATCTTATAGGAATTGATTT TATTTAAAATATAAGATTTCATGTTTTATGAAATAGATTAATTTTGAAGTATGTGGTT TATAGTTAAGATATGTAATTAAGTATATGATTTGATTTTTTTAAAAATATTGAGTTTA TAGTTTTATATTTAAGATTTTGAATTCATATAAGTTTGAAAATATTAAGTTTGTAGAG TGATTGTTATAATATATGTTTGTAAGTTTATGGTTTAATGTGTTTAAAGTGATGAAGG TTATATATATATATGTGGTATGAGGTTAATTTTTTAAAATCTGAAAGTTGTAAATAA GTGTTGGATATTAGATAAAGTTAAACTAGGTAAATATTAATTAGATATATTGTTTTG TAAATATATTTAAGTTTAGGATATATATTTGGGGTTTAGGGTATAAATCGACATAGC CATGGAAAAATAGTGGCTATACAGTGGCTAACGCTCTTACCACAGAAATAAATGTG GCTAAATCGTGGCTATGATTTAACATAAAAAAAATTATTTACTTTCGAAAATGCTTT AACCGGGAAAATGTAAAAAATGTAAGCGGGAATAAAAAATCCAGTGGCTATATATC TAGCCACTATAATATTTGGTGGCAATACAGTGGCTTTTTATCTAGCCACGATAAAAT TCAGTGGCTACTATCGTGGCTAATTGACTTTACCGTGGCTAACTGAAAATCGTACCT ATTTTGTGGCGGAATCGTGGCTTTTTTAATTTAGCCACGTTTTTGGAGTGGCACTACC GAGGCTATGCGGAAGATTTCTACTAGTGATAATCACAAAATGTTCACACGAAATGA CAACAAAACAATATATCCATACATATACTAGGGCAGTATTATTTTTGTATATATGAT CTACCACAAAGTTGTTCATTTTGCAAAAGTCAACTCATTGTTTTATATAAAAGTCCAC TCTTTGAAAGTTTTTATTTTGTTTAGATGATAAAAATATACTCATCAATGGGGCCAAG TTATGGTTATAAAATCTAGCGCTGGCCTTAATAATCACATCATCTCAGATTAGTTGA CACTTGACAGACTAATAATGGAGTCTCTATTATCACAAAATCTAAACCATGTAATAG ATCCCATACCGTCAGCTCTTCTCATCACCATCTCTCTTCTAGTTGTAGTCTACCTCAT CTCACAATGGCTTAAACCGCTCTACCCTCCCGGTCCCAAAGGCTTACCGGTAATTGG AAATATGCTAATGGTGAACCAACTCACACACCATGGTCTAGCCAAGCTAGCCAATC GATACGGCGGCTTGTTCCATTTACGAATGGGATTTCGTCACGTGTTTGCCATCACATC ACCTGACGTGGCCCGACAAGTCCTCCAAGTACAAGACATCAGCTTCTCAAACCGGC CCGTGACTGTAGCCATAAACTACTTAACCTACGATCTAGCCGACATGGCCTTCGCTC CTTACGGACCCTTTTGGAGACAGATGAGGAAAGTGTGCGTCATGAAGGTGTTTAGCC GGAAACGGGCCGAGTCATGGGCATCGGTCCGTGAAGAAGTAAACAATATGGTCCGG TCTTTGTCTAGCAACGACGTCGGTAAGCCCGTAAACGTTGGAGACCTCATTTTCACA TTGACACGGAACATAACGTACCGAGCGGCGTTTGGTGCGGCCTGTGAGACAGAACA AGACGAGTTCATAAGGATCTTGCAAGAGTTCTCTAAGCTATTTGGAGCATTTAACAT CGCGGATTTCATACCGTTCCTAGGCTGGTTGGATCTTCAAGGGATAAACAAGAGGCT TGTTAAGGCACGTAATGATCTTGACGGGTTCATCGATGAAGTTATCGATGAGCATAT GAAGAAGAGGGAGACTATAAACGGTGATGAAGATACAGATATGGTGGATGATCTAC TTGCCTTTTATAGCGAGGATTCATCACCTAATCGTAGCAAAAACGCCGTAAAACTCA CGCGTGATAATATCAAAGCCCTCGTCATGGTAAGCCAAAACGTTAACCTTTTTTATC TATATGATTTTCCTCTTAGTAATCATTTATTCCGTTAACATTTCTATAAATAAACAAC TAGATAATTTAGTTGTAACGATATTTCAGCCAAATTTTAAATTTGAAAACCAATTTC GACCAATTTAATTACTAAAAGAATTTTTGAAGTTGATGGTTTATATATTGGGATGAA TGATAGTTTCGAATAATATTAATTAGTAGCAATTATGTATTACCGTTCTTGTTTGTGT ATACAATACCATTTTGGTTTTGGAAGTGATATTTATCTTTGTGTTACACTGTTAGGAA TCATACATTTGATATGAGATGGAATATAAAGTAGTACACAATAGATATTGTTATATT TCAGTTGATTATGAATTTGAAATTCATAAATTTTTTGGACGGTTTTGATAACTAAAAT AAATGGTAGCTCGATATATATTAATTTACTTTTTTTTTAACTTTTATTAATTTACTTTC TTATTACTGGAAGGATGTTATGTTTGGAGGAACGGAGACGATGGCGTCAGGGATCG AATGGGCTTTGACAGAGCTACTACGTAACCCAGCTGAACTCAAACGGCTCCAACAA GAACTCACCGAGGTCGTGGGTCTTGACCAGCGCGTGGATGATACTCACCTGGAGAA ACTAACGTTCCTAAAATGCACACTCAAAGAAACCATGAGACTCCACCCACCCATCCC ACTCATCCTCCACGAGGCTATCGAGGACACAAAGCTCCAAGGCTTCTCTGTTCCCAA AGGCTCACGCTTGATGATAAACGCCTTCGCCATCGCGCGTGACCCGAAGTTGTGGGT TGACCCGGAAACGTTTCGGCCTTGTAGGTTTATGGAACCGGGTATGCCTGATTTCAT GGGGACTAACTTCGAGTTTATACCGTTCGGGGCGGGTCGGAGATCGTGTCCGGGAAT GCAGCTTGGGCTTTATGCGATGGAGGTGGCTGTGGCTAACATCATTCACTGTTTCAC GTGGAAGTTGCCTGATGGGATGAAACCTAGTGAGCTCGATATGAGCGACGTCATGG GTCTTACCGCCCCGAGAGCAACGCGCTTGATCGCAGTGCCTGACACGCGCCTCATAT GCTCTGTTTGGCCCTGACCATGGAGAGAGAGGCCTTGTTGTTCTGTTCAGGATTAAT GGTGCAAAAGCTTTCGTCTTCTTTTTTAAAATTTAAACTATGTTTTTCTTTTTCACTTC GTTTTTCTGTTCCCAAGGGACTTTTCTTCCTCAAAATGTATATGTAAATAAATGTTGT ACAGGAAGACCAACGTACAAAACGTAAACAATGTTGTGTGCAGCCAAAAAAAATAT CACGAAGAAACATTTGATCATATCTTCTTCTTATGCGCCGCTCTTTTCTTTCTTTCTGA TGATCAGACAATCTCTGGACACTGGATGATGTATGGTATAATGTGTGCCCGCCCTGG TTATGATTCTCTCCGGTTGAACCGTGCCCACAGCTAATTGTTAGTTCTTGAAAGCATT TGTGGAGCTCATAGAGTCACCTTTGCTTACATCAAGTAAAAGGCTATGCCCTTCAAC GGGACTGAAGCTAACGTTAATGGAGTGGTGGATTGATAATTCTCGAGGGCCACGGA ATGTTGAAGTTGGAGAAGGAAGACGTTTTTGGCACTCCATGGCTTCGACTTCCGCCA AAAGATCTGAGACTGACTCGTCACATTCGTCAGGTCCAGTCACAATGGGTTGCCAAT CCGTGGTATCATTAGAGGCAAAGTTGAGTTTGAAGGTTGGACTAAAGACATCTAGG AAGTCTATTTCTTGGTTGTCTGTAAACGACACCAAACCAGAGGTGTTCGAATCCCAC ACATTTCCACTTCTGTTGCAGGCTGAGCTCTTTGTGATGATACTGTTACTGCTAGTTA TAACACTCTGGTCAGTACACACTGAGTTGGAGCTAAAGTCAAGTACTCTACTCTCTA GTTTAGTAACAGCCACGCTCCTGTTTTGATCGTTAGCTATAGTAATTGTCTCTTCCTG CTTCAAGTCATCGATTGGTGTATTATTGGAGAGAGCAGCAGACTTTACAACGTCATG GTTTCTGCTATCGGAACTGGAAGGTCTAAACTAAAACAAAATTTTTTTTGTCAAAAA CGTTATATGCATGGGTATATTATAGATATATGAATTATTTTTATTGTCAAAAATAAA ACAAAAAAATTGGTAAATGGTAATCCTATCTAATTCTTGAGACCACATCCTTCAATC AGAGTTTTGCAGATTCACTCGACTGATCGATGTGACATGAGCTACCTCACTAGAATG TCATTGTTAAATAAAGTCTCAAAATACTGCATCAAGTATTCAGGTTATCCTTCACATT CCGTATAAATTCAAAACTACAGCTAGTTCTTGAACTAACGCACCAGTTTTGCTTCTTG TGTTCAGATTTGACTAGTGTATTAATGTGTGTTAACTCAGATTTACCATGAAATGTGA AATGTGTTTGAAGACTCACCTTGGAAGCTATATTGAACTTCTCTTTGGTTTTGGAGTC ACCAAGCAGCTCCAGCAGTTACGTACGTATTTAGGAAGCAGAATACTTCCGCAGCTA AAACTCATTGTCCACATTTCTCGGAAAAATAAAAACAAAACAAAACATAGCAGTGA CTTGTATCTATTGCTTAGACTTTAGGCGTGAATCAGAGTGGAGTTGGGATTAATGTA TATTTTTAACACTTACAAGAAAGCAGGCTTGAGAAATTTCACACAGAATGATAATAC AAGTCAGAGTCAGTACCAGGGATGTGTTATTATGAAGTCATAAAGAAGAAATTGAG ATAATACAATATCTTGTTTTATGTTTTTGCTTGTATCAAAAATCATGCAGAATTAAAA CCACAATAGCAAAAGCTTTTTTTTATTATTCTTCTATCTTCTTCATCTTTGGTCAAGA AGACAAGTAAAAAAAAAAAGCTGGTAACTTTTGATACATGATAGCCTTTGGAGGAG ATCAAGCAGTTCTCTTAATGATATGGACTCCACTGTCTGTATCCACAATCTCGCTTAT ATCACCAACCTTGAGTGCGTATGTTGCCTCCTCAAACGGTTTCTGCATTTGACCTCTC CCAAACGGACCT SEQ ID No: 112 >Radish_GSRAST00042054001 CAAATTGCTCAATATTAATATTTCTTAATTTTTACTATATTTTTCTTTAGAA AATGTTTATAAAAATTCGTTAAAGAATCTATATAATATTTTTAAATACACTAAACAT CATTTGTTTTCTATGACTTTAAAATGTTGTTATGTGCTTGGTCTTTCTTTGCTTTTTCTT CCATTACTTTCTTTTGAATCTTGTACTCCATCTATATATAAACAACAACAAAAAAAA AATTGTAAATTGGTGTTGCAAATAAAATATTTTGAGTTCAATCAACCAGATAAATCA TTTATTTTGATCTGAGTTAATGGTTTTCATTGAGTGACAAGAATCAATTGTTCCTTTT TAAATGGACCAAGATTCTCATAACTGAAGATTACATGCAAATTACATAGATCTGAGT TAATGGTTTTCATATGACGTTAAAAAGAATAATATAACACGATGGATGATAATTATT TCTTCTTTTTCATATTTAAAATAAAACAAAATAAACACATATGTGATTACTTAGATG ATGACTTGTCTCGATAGATGATGATTTCAAAGAAAAATGGAAAATTATATAAAATTA AAAAATATATTAAAATCTATAATAAATTTCGTGATAAAATCAACACAAATCATAAA ACACATATTTATTTTAAACATAATTTATTATAATATTATTATTAATTTCGAATAATAT ATTAATTACTGAAATATTGAATTGATGTTCATTTAAACAACAAAGGCATCAGTTGTT CTTAACTGATTTTAAATATATATATATATATATATATATATTTGTATCATTTCAAAAT AAGTAATTCAAAATCATATCACTTATTTTTGTGATGCAAATTAAGTGATACAATTCA ATGGTTTTTTATATGAATATGGTATTTTTTAAAAAGCACAATTTGATGTCGGAAGTTA AAAACAGAGACACATCAACACATTTCTGCGATTTCTTCGTAATACTAATACAAAGTA CTTTAAAAACTAGAGTAAGTAATTACCTCTCTGAACCTAGAACATATGGACTTACAT AGTATGTAGCACCAAAGATACAATCTAGATACAATACTCAGAAATTGTTTTCTTTAT TCATCTTTTCAATATAATTATTTAACGGTTTGATACCAACGAATCATGCTCTATATTT GCGTATATTCATTTGTTTATTGTATTTAAACTCAGAAACTGTACTATCATGTATCTGT CATGTAAATCTTGAGAAAGCTACATAGTTGGTTTTACAAAGCCTAACCATGCACGTT CTTTTTCGTTTGATTATTTCCATACGTTTTTTTTTTGTTAGATTATTTCCATGTAATTTA TTTTTTCTTCAGTACTAAATAAATATAACACGTATACTTTGACTGGAAAATCTACATT CATATCATTTACATATTAAAAATTCCAAATAAAATTTTAAATATTTGTATATAATTCT CGAACCTTTAGAGCAGCCTCATTGGCTAATACTGGGTAGAGGATCTCAACAATTTTA TTTTAAATCAATACAATTTATGTTAAGCAATTAAAATCTTTTATTCTTTTCAACAAAA AAAACAATGATAACATGCCATCTAATGTTAAAGAGTTATCACAATATCTCTACTGCT ATACCATCTCACAATCTTTCTTTCTTTTTAATAAATTCATCGTGAGAACCTAATTTTT ATCTCGTTTAAGTCAAAAAAAAAATCTTCATCTCATCGATGGAGGTATTCTTAGATC TATTGATCTTTATTGTAAATCTAATTTCTTTCATCGGTAGATTTTCTATTCAAACTACA TATATATTGTTATCCTTATTGGGATATATATTGATTATTGGGATATTGACTATTGACT TGTGTTTTTTTTTAAGAAAACAAATCTTTCATTATACCATACATATATCTCTAAGTGC TAATAAATCGAATACAGATACAGCCACTTTCATGTGTATACAACCATATTAAAAACC TCATCACCATCTTTTTACTCTGTGTATTGAAAAGAAAAAACATAAAAGATGGATTGT TTGCTTTGCTCACCAATTTTATATGTAGTTCTTATATTTCTTTGGTATTTGGTTAGAGT TTTGGTAACTCGTGGAAATCCATTTCCACCTGGTCCAAAAGGCTATCCAATAATCGG TAACATGAAACTAAAGAATCAGTTGAATCATCGTGGTTTAGCCGAGTTGGCCAAAC AATACGGTGGTCTTCTACACCTTCAAATGGGTAAAATTCATATTGTGGCCGCTTCAA CGGCTGAGATGGCCCGTGAAATTCTTCAGGTATGCGATTTTATACGGTTTAGAAATT GTTTTGATATTTTAAGTATTCTTCTAAACATTTGGATAGGATAACAATGAATTTCTAG TTTTTTTGCAAGACAACATTCATTTCAAACATTGAGTTATGTTAGGTTCAAGATGTGG TTTTCGCAAACCGGCCAGCTAACGTGGCGATTTCATATCTTACCTACAACCGGGCCG ATATGGCGTTTGCGAACTACGGTCCCCTCTGGCGTCAAATGAGAAAGGTTTGCGTAA TGAAGCTGTTTAGCAGAAAACGGGCCGAATCATGGGCCTCGGTTCGCGACGAAATT AATACGATGGTTCAAACTCTGACTAAACAAACCGGTTCACCGGTTAATGTTGGTGAG CTTGTATTTGCTTTGACGCGGAACATAACGTACCGAGCCGCGTTTGGGTCGTTCGCT CGCGACGGTCAAGACGAATTCGTCAAGATTCTACAGGAGTTCTCAAAACTCTTTGGA GCGTTTGATATCACTGAGTTTTTACCGTGGATGAAATGGTTTAGTAACCGCGATTTC AGCAAGCGGTTGGAAAACGCCAGGAAATCGCTGGATGGGTTCATAGACAGAATCAT CGATGCACATATCGAGAAGAAGAACTCAAGAAAACAAGAGGATGATGGGTTGGAG GACGACATGGTGGATGAACTAATGGCGTTTTATAGCGGTGAGAACGGCGGCAAATC TAACGATTCCTTGTCTACATTTAGACTCACGAGAGATAACATCAAAGCCCTTGTCAT GGTAACTAGCTAATGGAATATAATTTATACATACATAAACCATAGGTTAATGTCATA TTATATTTATTAATATAAAATGATTTAAAATAGGATGTGATGTTTGGCGGGACGGAA ACGGTGGCGTCTGCGATTGAATGGGCCATGACGGAGCTGATGAAGAATCCTCACGA ACTCGTAAAGCTGCAGCAAGAGCTCGCTGACGTCATCGGATTGAACCGTCAGTTTCA CGAATCTGATCTGGAGAATCTTCCTTACTTCAGGTGCGCGATGAAAGAGACGTTGAG GCTACACCCTCCGATTCCTCTTCTCCTCCACGAGGCGGCGGCGGATTCCGTCGTCTCC GGCTACTCCATTCCCCGTGACTCTCGCGTCATGATCAACGTGTACGCGATCGGGCGA GACGGATCGGTATGGACTGAACCGGATGCGTTCAGACCGGGTCGGTTTATGGAAGA CAAAGCTCCGGATTTCAAAGGTAGTGACTTCGAGTTTCTTCCGTTTGGGTCGGGTCG AAGGTCGTGCCCGGGTATGCAGTTGGGGCTTTATGCTATGGAGCTCGCCGTCGCGCA CATGCTCCATTCATTTGACTGGAAGTTGCCGGAAGGAGTTAGCTCTGGTGATCTGGA TATGACCGACATGTTTGGTCTCACGGCGCCTAGAGCCACCAGGCTCATCGCTGTTCC GAGCTACCGGCTAAAATGTCCGATGGTGATTTGAAATTCGTGTTGTTTGATACTGTTT TATTTCAACTGTTCGCTGTTTTCATGACTCCTTATACAATGTGTTGTTGTTTTGTTTTT GTTGAACTGTTTGCTGTTTCGTGATACAATGTGTTGTTGTGGTTTAATATTCCAATCT GTTTTCTCAATTATCCAGAATCTCGGTTGGGATTTTCCTATTTTTAAAAGTAATTTCA TGATCATGTCAGGAGTCATAACAAAAGCATAAATCAACTCTGCTTCTCCTCAGAACA CTAACTTAGCAAAAGCTACTTAGTACCTAAAGGGGTAGTGATGGTGGTGGTGGTGGT GGTGGTTCACTAATCTCCCAGAAGGGCATTCATAGGCAATGTGTCCCCTTCCACCAC AGTTTCGACATATCATCAGCCTAGCCCTGCAGTCTCTGCTCATATGACCCACTTGCC GGCAGTTCCTGCAAACCACCTCCTCCTCCCTGATTTGGGCTCTGATCCCTCGTGGTAA CACATGGGTTTTAGGGCATTTGATAGCAAGGTGACCAGACAGGTTACAGTGATTGCA CACGGGATCGTCTCTGCAGTCACGAGCAAAATGACCGGTCTTCCTGCACTTGTTGCA GGCTTTCTCGTTAGTGCAATCAGCTGAGAAGTGACCTTGCTTGTAACAGTTGTTGCA GAGTCTAAGGTCACCAGGAGGGAGGTGGCGAGCCGTGCAGTCTTTAGCTTGGTGTC CGGCAATACCGCAGCCGTGACAAATGCCTTCGTTGGTGCAGCTATTAGACATGTGAC CTGGTTCACGGCAGTTCCAACACAGCGACTTCGCGGAGCATTCTGATAAAATGTGCC TGCCAAGTATTTTTATTAGAAAAATAAAATAAAAAGACAGGGATATATTATCAAGTT ATTACATTAATGTACCTTGAAGATTAGTGTATAAAAAATGTAGCAAGAACTTCAGTA TAACAATCTAAAAACAAGTTAAAACAACGTGATGCAAAGAGCGTAAGATTGAGAAG TAGAGAGAAAGAATAGGGTTTACCCAGGAAGGCCACAGTTGTGGCAGATAGAGACA TTGGGACACTCTCGAGCAAAATGACCAGGTTGCTTACAATTCTTGCACATATTACTT TGGCTGTTAATGGTAGCCAAAGGAAGAAGAAGCATATCAGTTAAGAAAAAAAAACC AATTTGATTTCCTTCTTCTAAGAGAAATGCCAATTTTTCGATCTTAATGGAGATGAGA GAAAAACCTGAAAGTCCGACGAGAATCTCTCCGGTAAGGATCATCACGGTAAGAAA AACGATCAGAAGCAATCTTTCTGTCCATCGGATTCCTAATCCTCTCCAAACTCATTAT CTTAGCAACAAAAAAAAAAAACAAAAGAGAGGGTATCATTCAATTGATGTGAATAG GAGATGCAAAGTGTGTCTAAATTGAAAGAAGCACGGAACATCCTCCTCCATCCACTC TAGAAAAAAAAAACATGAATAATCACACTCCTTAAGATGCGCTTAAACCCTAACAA CGATTCTCACAACTAACTAAACCCAAAAATTAACCAAACTGCTTTTCTTACACCGTC AGTACCTCCTTCCTTCACGTCGACGACAACCAATATTTTGACGACAACCAATTTTCC GACAAGTAAACTGTCAGCAGTTCGACAAATCTGGCGTGCGGCGAAAGAACCTCTGC GACACACATCCTCTTAACACGCTCACAAAACAACTCAGCAGTTATAAATGGGCTTTA AAAGCCTTTCGTGACCCATTAACTAAGCGAGACACGCCTGTTATGTAGTAACGAATT ACGGTTAAGTTCGGTAATGCGTCCACTTGCTCTTTTCTGATACGGTCCAGTCTACAAA TACGTACAAACATCAAATTTGTAACATCATATGCATGGCCCATATCCCATATGCAAT CTAAATTTCTAATGCCTACAATAAATTAATTTAACATCATATCTGCTCATCGTACTTT GTAGTAGTAAATATAAAAGACGATCCAATTACTATCA SEQ ID No: 113 >Radish_rs_Aokubi_v1_EVM13601 GTGCAGCGTCTGCGACAAGGCGTTTTCTTCTTACCAAGCTCTCGGCGGGC ACAAGGCGAGTCACCGGAAAAACTCATCGCAGACTCAGTCTAGCGGAGGAGATGAG AAATCCACGTCCTCCGCGGTAACCATCGCTAGCCACGGCGGCGGCGGCGGAGGAGG AATTGTGAAGCCTCACGTCTGCACGATCTGTAACAAGTCTTTCGCGACGGGTCAAGC TCTCGGCGGCCACAAACGGTGCCATTACGAAGGCAAAAACGGCGGCGTTGCAAGCA GTAGCTTGTCCGTTTCCGAAGGCGTGGGGTCCACAAGCCACGTCAGCAGCGGCAGC CATCATCACCAACACCACCACCGTGGGTTTGACCTCAACATCCCGCCGATACCGGAG TTCTCGACGGTCAACGGAGAAGAAGAGGTGATGAGCCCCATGCCGACGACCAAGAA ACTGAGGCTCGAGTAGATTCAGCTAGCAGTTTAAATGAAATTTGTTATATACTGTAC ATATACCAATTTTTAGATTCCGGTTCGTGTTCTTCTTCATTGAATCAGTATTCCTTCTT TGTTATATTTGTGTAGTTTTCTTGTTTTCTTTAAGTTGTCGCTTAAAGAAAAAGACCC TCAAACAATTCAAATACGTTTCAGTTTCTAAAAAACACATATTACAACCTTACGGCC TGTTTGTTGGTCCGTTGGACTAGCTTGGTGGGCTCGTATGACTTAACCTACAAGTCTC AGCCCATGTAAAGAGATTCGTTTGAGGTAGATAAACTGAAGTTTCCTTGCAGTATAA TAACAAAATCCACATACAAGTAATTCTTTTAGACCTTCCTTGGTTATAAGAACAGTG CAAAATATAAGATGTATTTTTTTCAACCATATAATGATATAAGATGTATTTGAAATC CTTTTTTTTTGAACGGCAACGTATTTAAACTCCATACGTATAAAATGTTATTTACATT ACCAACCAAAAGCACCATCTTTTTTTAAGGAGCCATTCCACAACCTGACAAATATTG ACCTACCTACTTAGCAAAAAAAAATAAAAATTGACCTACCATATAATTATTATGCGT CCAAAGAGCATACATTATTATGTTATATATAATTGATATGTACGTCAATGTGATAAA ATTGGCTAAACATCCAGTAAGATCATTGGTTGGTTTTGTTTATCATTTTTGTTGAATA TCATGTACTCCCACAAAAGATTTTGCGTGGATATCCAGCTATACAACAATATACATA GAGGTAAGACGTCCTCATTGCGAATGCGAGACAAGGCCTCTACCATCAAAACTCAA AACGTTAAAGAAAAATCCAACAGTAACATCATACTGACAATATATTTTAACTTTGAT AACTATGGTATTAATATAATCACAGACATGGTTACAGACTAAATAGAAATATGAGA TCTCTCTTGAACAAAATATTCCACAGCTACTGAAATTTACGTAGCTCATTTGGTGTGT TTGACCCCTTCTTGACACCCCTTTCATAGACACACCTGGATTCCAAAACCCCAAATT GTAATTTTCTGTTACAAAAAAAAAATATTCTACAGCTTAATTTTAAATCGAAGTTCA ATCCACAACGGATTAACCACTACTGACTACTAAGTTTGCTCCACTCTGTTTCGCTCTC TAAAGAATTTTTGTCGTCTACCTAATTTAGTAGATAGAGTGAGATGATAATGCAAAT ATACACAATACATGCCATACAAGCTACTTACGCCTGTCGTTTTCACCAAAAACTATA TAATAAACCCTAATGATCGATCACCCTGCACGTTGTGACTTCTTTAATTGTTCTTTGC ACCAATCAATCAATCATGGACCATGGTCACATGAAACACATTGATAAAGACCAATTT CAATAAAATAACAGCAAATGTACACAAAAGAGGTATTAGAGTTGAAATAGTTGTTA AGTCATATCAATCACATTATTTTCTTAACATATATAAAATAGACCCACGCACACTAA CTCGTATCAAAATGTATACTCCAATGACTCTCATCCTTCTCGTCCCTCTTCTACTTTTC CTTTACTGGCACCTCCTTTCACGGCGGCTAAGGTTGCGGAAATCATACCCTCCCGGC CCAAAAGGCTTACCTATCATTGGCAATATACTCATGATGAACCAAGTCAACCACCGT GGCCTGGCCAAACTCAGCCGCACATACGGCGGATTACTTCACCTCCGTCTCGGACTT TCCCATCTTTTCGTAGTCTCCTCTCCTCAAATCGCACGTCAAGTCCTCCAAGTTCAAG ACCACGTTTTCTCGAACCGTCCAACCACAATAGCAATCCGTTACTTGACCTACGGTC AATCCGACTTAGCATTCGGCAATTATGGCCCGTTCTGGCGTAGGATGAGAAAACTCT ACGTCATGATGCTCTTTAGCCGTAAACGAGCTGAGTCGTGGGCCTCTGTCGACGAAG AGGTCCACAAAGCAGTCCGTTTTGTAGCGGCCAATGTCGGAAAACCACTAAACATA TGCAAAGTCGCTTTCTCCTTGACAAGAGATATAACGTTCGGAGCAGCGTTCGGCTCT TCCTCGTCAACTTCTGACGAAGGCAGACTAGATGAGTTCCTTGAGATCATACAAGAG TTCTCTAAGCTCTTTGGTGAGTTCAACGTAGCGGATTACGTCCCGTCCTGGCTTAGTT GGATCGACCCGCAAGGGATAAACAAGCGGGTCGAGAGAGCTCGAAAATCTCTAGAC TGTTTCATTGAGTCAATCATCAATGATCATTTAGACAAGAAGAAGACAGAAAACAA CGTTGACGTTGACGAGGAGACCGATATGGTTGACCAGTTACTTGCGTTCTACAAAGA AGAAGTCAAAGTCAAGGACTCGGAGACAAAAATCAATCTCAACAACATAAAGGGC ATCATCATGGTAAAAGCTAAACATAGTCCATTCCATCCGTTTCAAATCATACAATCA AATTTTTAAAATAGTAGAATGTACAATTTTATTTTTATTTAACTATTAGAATTATGTA GCATTTTAAAAAAGAATTATGTAGCATTTATTTTTTAAATTTTTTAATTAGTGATAAA AGTGAACAATTAATAAAAACAGCATTAAATCATATTTATTTTTAAAAAAATATTTAG ACCGTAATTTGATGAACAAAATTTGGAATATGAATGCATGGAATAGATCATTCCATT TAACTCCTTGAAAAATACACTGTTACAAGAAAAATATTATTCATAAAGCATTCCTAA AATTCTTTTGGAATCAATGGAAAGAGAATAATTTATTTGTAAAATCATTACACAACG TAATCGGTAAGGATCAAGTGGAATGAATGGAATGCATCATTTTATTTTTAATTTAAT TAATAAATATATTTTATTTCTATTTCATTCCTCTTCATTCTATTTAATTACATTCTTTT AGTTCATAATATTCCCCTAAATGATTTCCGGTTACACCCTTAGTTTATATATTTGAAA AGTTTTTGATAACAGAATGAAAATGAAATATAGGATGTGATGTTCGGAGGAACTGA GACGGTGGCATTAGCAATCGAGTGGGTACTAACCGAGCTACTCCGGAGCCCCGAGA ACATGAAACGGGTCCAGGAGGAGCTAGCGACTGTGGTCGGGCTTGAGCGGTGGAGC GTAGAGGACACACACCTTGAGAAGCTCACTTTCCTAAAATGTGTACTCAAAGAGAC CCTCCGACTCCACCCGCCGTTCCCTCTCCTCCTCCACGAGACGGTGGAGGACGCCGA GGTCTCCGGTTACTCCATTCCCAAGGGATCACGTGTGATGGTCAACACCTACGCTCT CGGGCGTAACCCGAATTCCTGGTCCGACCCAGAAATATTTAACCCGAGTAGGTTCTT GGACCCAGGTGCTCCTGATCTCAAAGGGAACAGTTTCGAGTTCATTCCGTTCGGGTC GGGTCGGAGATCGTGTCCGGGTATGCAACTCGGGTTGTACGCTTTTGAGCTTGCGGT GGCTCATCTACTACACTGCTTCACGTGGAAGTTACCAAACGGTGTGAAACCCGGTGA TGTGGACACCATCGAAGGGCCTGGTCTCACCGTTCCTAAGGCGAACTCTCTTGTAGC AGTGCCGACCACGCGCCTCCTCTCTCCCATCGTCTTGGAAAGCCACAATGTTTAAAA AACTTGTTTTCATAAGCATTGTTTTACGTTGATATTTTCTTTCGTTATGTATATATTGT GTTCGTGTTTAAGTTGGCATTTTTGTTCGTAAAATGTATATCCAAATAAATACATAAA GCTTCGAAAATGTTTTGTTTTTTAAAAGATACTGACACCAAGTAGAAAGACGAATAC ATTTTTTCAACTACTATGTGATATATATAATAATATTTCTTAAAGAAACAAATTAACT ATGTATTTTAAATAACTGTTGCCAAAAACAGGAGAAAAATAATAGGTTACAAAAAA ACAACACAGGAGAAAAAATAATAATATAACCGATGCTTAAATACATAAACATTACA AATAAATGGTTTAAACATAATAATTTTTAGTTATTGTTGTAAAGTAGTCTTATAAAA GGGTAAACCCCCTTTTAAAATCACTGTTGCATTAACGGGCAGAAATGAATGTAAGTA ACGTTCACATGTAAAACAGATATAAACATGTAATTCATAGTTTAATTAAGCAAGATA TTGTCATCGAGTCAAAGGGTTGACTTGTGATGTCGGAGAAACAGAGAATTAAAAGC AGTACGAGATTGAATCACCTAGTGGACTAATCTATAATGCACACACTAAATTAGAA GTGTAGATTTATTACACAATCGTTTTAAGTAGAAGAGGAAGTCAAAGAGATTACCA GAAATAAAAAGAGGAAGTCGAAGATAACCTTTGATATACAAAAGCATGAAGTAAGC TTCTGAACAACAATCTTTTGCATATTAGGAGCCCAAGATGCCAAGAGGAGATTCAGC AGTCTCACCGCAATTTCACCTTTACGTGAGACTTCTCCGTATGATTGGACTTTCTCTG ATGCATGTCTGGATGTTCTTCTCATAATTCCTCCGGTGAGAAAAATGCAAGTGGTCT TAGCTAACTTAGACAGAGAAAAAAAAACAAAACAGTATCATGTTTCAACAAACCTT GCATCATCAGCACTCAAGGTTTCAGTCACTTCCGGTTCTTGAAAATCAAACGTTTCC GTCTGTTGTCTAGCAGAGACTCTGCCCATTTATACAAGAAATTAGTGACCTCTCTAA CGCATTGTTTTAGATGGCTATTAGATATTTATCTAATAATGTCAGATTGTCACGGCTG AACAAAATTGTTTACATGGTTTGTGGTTTCAGTTTCCCGAGTTGTAATTAAGGGAGTT TCAGAGAATTGTGATGTAACTGCACTAATCATTCACTATGTAATTATGTTGTTGTGTT TAATCATACCTCAATGGGTCATATTGAAAGGAATAAAAAAAAAACAAAAGATAAGA TGATATTTATCCACCTTCTTCTTAGTCAACTTCAACTTCAGGATAGAGATGTGGATGC TCAACATGCATAAATGTCTTTCTGCTTTGAAACACCTCGAGACAGATCACTGCACCA CATAAACAATGGTAATCGATGATGGTCACGAGGGGATGTCAGAAACAGTCCAAAAT TGTTGGAAACTCTGCCATTCTGCAAAAAAGAGAAGAGAGTAACAATAGAGATATAC ATTTGTAATTACAACGAACTCTTATTTTTGAATGCTAAACAACATTAAATATAAATA TAAAATAATTTAAAAAAATAAGAAACATAAAAATATAAACCAAATTTCTTGAAATA AAACTTTAAATGAAAGTCAAAACTACTCAAAATGAATTAAAAGTTTCAGAATTGAA TTTTACGAATTCAAACTGAACCAAACCAGAATTATATGAAACCAAAACAATAAACA TCACAAGTTGAAATGTTAAATCATGGTTTTGGTATTTTAAATAAAATGCACTTGTTTA GTGAGATATTTTACTCTTCGAATTTCATTTCAATTGCCATGTGCCATTATGTATTGTA ATTTCAAATGTCATTAGTTTCCTTGTCCCACTGTACTCTTCTATTGAATTAGTTATCAT GCATTTTCGAATTATTGAACTCTCGAATTATTGAACTCTGCTTTTGATCAATTTACTT GT SEQ ID No: 114 >Onion_AC.SP3B.Locus5396.1.10 ACTGGGAATCAAAGAAAAACAAAGAAGCAGACTCCAACGAGGGAAGCTA GATTCAAACACAAGAACTCTTCCCCTCGCATACACAAAGCTCAAAGAAACAAAACC AAAGCCATGATGGACATGCAATCCATCCTCATATTCACCCTCCCATTCGTCACCCTC CTCTTCCTGGTCATTACCAGCCGCCGCAGGCCCAAACTCCCGCTTCCGCCCGGCCCG CGCCCACTACCCATCATCGGCAACCTCAACCTCATCGACAAACTCACCCACCGTGGC CTGGCCCATCTGGCCAACCAATACGGTGGCATCTTCCACCTCAAGCTTGGGTCCGTC CACACCTTCTCCATCTCCACACCCGAAATCGCAAAGGAGGTCCTTCAAACCCAGGAC CTGGCCTTCTCCAACCGCCCCGCCACCATCGCCATCACCTACCTCACCTACGACCGG GCCGACATGGCCTTCACCCACTACGGCCCATTCTGGCGCCAAATCCGCAAACTCTGC GTTATGAAGCTGTTCAGTCGAAAAAGAGCGGAATCATGGGCCTCCGTCCGAGAGGA GATAGAGAAGGCTGTATCGACCGCAGCCGCGGGCGCTGGGACTGTGGTCAACGTAG GGGAGCTGGTGTTCAATCTGACGAAGAATATAACGTTCAGGGCGGCGTTTGGAGCG AAGTCGGGCGAGGAGCAGGATGAGTTTCTGGGGATTTTGCAGGAGATATCAAAGCT GTTTGGAGCGTTTAATGTCGGGGATTTCGTACCGGGTTTGAGGTACTTGGATCCACA GGGGATAGGGAGGAGGATGAGGAAGGTGAGGAAGGAACTGGATGGATTTATTGAC AGGATAATAGATGAGCATGTGCAGAATAGGAAGGAGGTGGATGATGTGGAGGCCG ACATGGTGGATGAGATGTTGGCGTTTGTTGGACAAGGGAAGAGCATTGGTAGGGAT TCTGATGAGTTGAGGCTTACTAGGAATAATATCAAGGCTATTATCATGGACGTAATG TTCGGAGGAACAGAGACAGTGGCCTCGGCAATAGAATGGGCAATGGCAGAGCTCCT TAAAAGCCCAGAAGATCTCAAAAGGCTCCAGCAAGAACTGACGTCGGTAGTGGGCC TGGACCGCAAAGTCCAGGACTCCGACCTCGACAAACTGCCGTACCTCAAATGCGTC ATCAAGGAAACGCTGCGACTTCATCCACCGATCCCGCTTCTTCTTCACGAAACAGCG GAGGACTGCGAGATCCAGGGCTACTCGATCCCCAAAAAATCGAGGGTAATGATCAA CGTGTGGGCGATCGGGCGCGACAAGTCCGCCTGGAAGGACGCGGACCAGTTCAAGC CGTCGAGATTCGTGAAGGGAGGGGAGTACGAGCAGGTGGATTTTAAGGGGAATTTC TTCGAGCTGCTGCCGTTTGGGGCGGGAAGGAGGTCGTGCCCGGGGATGCAGCTGGG GCTGTACGCGCTGGACCTGACGGTGGCGAATATGGCGCACTGTTTCGATTGGGAGTT GCCGGACGGGATGAAGCCAGGCGAGATGGATATGAGCGACGTGTTTGGGTTGACTG CGCCTAGGGCTGTGAGGCTTGCTGCTGTGCCTTCTCCTAGATTGACTTGTCGTATTTG ATTTCAACATGTACATACGATTTGTGTTTATATATACGTTATAAAGTATACACAACG GTGATTGTTTGTATAATTGTAATGCTGTTCCATGGTGCGGACTAATAAAAATGTTCA ATGAGAGGGTTTTGAAAGACGTATGGTGTATGTGAATTGTAAATTTATATAATTGTT ACTTCGTCATTAATGAAACTTTTTCA SEQ ID No: 115 >Lettuce_Ls_F5H_1_1 CDS WT ATGGAATCACTTCAAATCCCCATAGCATTCTACGCTATAATAGCTATCTTA ACTTTCTTCTTTCTTTCATGGGTCCGCCGGAAACCACTCCCGCCGGGGCCAATGGGG TGGCCAATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGCTTAGCC CGTTTGGCAGAAAAATACGGTGGTATCCTTCATCTAAAGATGGGTTTCAGCCACACC ATTGCAGTGTCCTCGCCGGAGATGGCGAGGATAATACTTCAAGAAAAAGATAACAT CTTTGCCAACCGTCCGGCAACCATCGCCATCACTTACCTGACTTACAACGGCGTAGA TTTGGCTTTTGCTAATTATGGACCTTTCTGGCGACAAATGCGAAAGCTTTGTGTCATG AAGCTGTTCAGCCGGAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGGA CACCATGGTGAAAGCCACCGCCATTAACTCCGGTACGCCGGTAAACTTGGGTGAGC TTGTTTTTGGGTTGACCCATGATATTATCTACCGAGCAGCTTTTGGGTCGATTTCACA TGAAGGGAAAGAAGAGTTTATCAGAATCCTTCAAGAATACACCAAACTTTTTGGCG CATTCAATTTGGCTGACTTTATCCCGTTCCTCGGGTTTATTGATCCGGCGGGGTTGAA CACACGTTTACCGGCGGCCAGGGCGGCGTTGGACGGATTCATTGACAAAATCATCG ACGAGCATTTGCGTAAAGGAAAGAAAACCGGCGATGAAGGTTTGGATAACGATATG GTTGATGAGATGTTGGCGTTTTACAGCGAGGAAGGAAAAGTCAACGAAGGTGGTGA TTTGCAAAACGCCATTAACCTTACTCGAGATAACATCAAAGCCATAATCATGGATGT AATGTTCGGTGGAACTGAGACAGTGGCGTCCGCCATAGAATGGGCCATGACGGAGC TAATGCATACACCGGAGGCACTAAAGCGCGTGCAACAGGAGATGGCAAATGTCGTC GGACTTGACCGGCGCGTGGAGGAGTCTGACTTGGAGAAGCTGACGTACTTCAAATG CGTCATCAAGGAAACCCTCCGACTACACCCTCCGATCCCAGTTCTCCTCCACCAGTC TTCGGAGGCGACAGAAGTTTCCGGCTACCATATACCTAAAGGAACACGTGTCATGGT GAACGCGTATGCTATTAATCGTGATAAGAACTCTTGGGAAGATCCGGATACGTTTAA CCCGTCACGTTTTTTACAAAACGGAGCTCCGGATTTTAGAGGAAGCAACTATGAGTT TCTGCCATTTGGTTCTGGTCGGAGGTCGTGTCCGGGGATGCAACTAGGGTTGTATGC GATGGAGATGGCGGTGGCCCACCTTTTGCATTGTTTCACGTGGGAATTGCCGGATGG AATGAAGCCAAGTGAAATCGACATGGGTGATGTGTTTGGACTCACAGCACCAAAAG CAATAAGATTGGTAGCAGTGCCAACTCCGCGTTTATTATGCCCATTGTATTGA SEQ ID No: 116 >Lettuce_LsF5H_2_1 CDS WT ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGGAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGGAT CTGGACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA SEQ ID No: 174 >Lettuce_LsF5H_1_1 CDS Mutation 1 ATGGAATCACTTCAAATCCCCATAGCATTCTACGCTATAATAGCTATCTTA ACTTTCTTCTTTCTTTCATGGGTCCGCCGGAAACCACTCCCGCCGGGGCCAATGGGG TGGCCAATCATCGGCAACATGTTGATGATGGACCAACTTACCCACCGTGGCTTAGCC CGTTTGGCAGAAAAATACGGTGGTATCCTTCATCTAAAGATGGGTTTCAGCCACACC ATTGCAGTGTCCTCGCCGGAGATGGCGAGGATAATACTTCAAGAAAAAGATAACAT CTTTGCCAACCGTCCGGCAACCATCGCCATCACTTACCTGACTTACAACGGCGTAGA TTTGGCTTTTGCTAATTATGGACCTTTCTGGCGATAAATGCGAAAGCTTTGTGTCATG AAGCTGTTCAGCCGGAAACGAGCGGAGTCATGGGACTCCGTCAGGGATGAGGTGGA CACCATGGTGAAAGCCACCGCCATTAACTCCGGTACGCCGGTAAACTTGGGTGAGC TTGTTTTTGGGTTGACCCATGATATTATCTACCGAGCAGCTTTTGGGTCGATTTCACA TGAAGGGAAAGAAGAGTTTATCAGAATCCTTCAAGAATACACCAAACTTTTTGGCG CATTCAATTTGGCTGACTTTATCCCGTTCCTCGGGTTTATTGATCCGGCGGGGTTGAA CACACGTTTACCGGCGGCCAGGGCGGCGTTGGACGGATTCATTGACAAAATCATCG ACGAGCATTTGCGTAAAGGAAAGAAAACCGGCGATGAAGGTTTGGATAACGATATG GTTGATGAGATGTTGGCGTTTTACAGCGAGGAAGGAAAAGTCAACGAAGGTGGTGA TTTGCAAAACGCCATTAACCTTACTCGAGATAACATCAAAGCCATAATCATGGATGT AATGTTCGGTGGAACTGAGACAGTGGCGTCCGCCATAGAATGGGCCATGACGGAGC TAATGCATACACCGGAGGCACTAAAGCGCGTGCAACAGGAGATGGCAAATGTCGTC GGACTTGACCGGCGCGTGGAGGAGTCTGACTTGGAGAAGCTGACGTACTTCAAATG CGTCATCAAGGAAACCCTCCGACTACACCCTCCGATCCCAGTTCTCCTCCACCAGTC TTCGGAGGCGACAGAAGTTTCCGGCTACCATATACCTAAAGGAACACGTGTCATGGT GAACGCGTATGCTATTAATCGTGATAAGAACTCTTGGGAAGATCCGGATACGTTTAA CCCGTCACGTTTTTTACAAAACGGAGCTCCGGATTTTAGAGGAAGCAACTATGAGTT TCTGCCATTTGGTTCTGGTCGGAGGTCGTGTCCGGGGATGCAACTAGGGTTGTATGC GATGGAGATGGCGGTGGCCCACCTTTTGCATTGTTTCACGTGGGAATTGCCGGATGG AATGAAGCCAAGTGAAATCGACATGGGTGATGTGTTTGGACTCACAGCACCAAAAG CAATAAGATTGGTAGCAGTGCCAACTCCGCGTTTATTATGCCCATTGTATTGA SEQ ID No: 175 >Lettuce_LsF5H_2_1 CDS Mutation 2 ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCATCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGGAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGGAT CTGGACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA SEQ ID No: 176 >Lettuce_LsF5H_2_1 CDS Mutation 3 ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGAAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGGAT CTGGACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA SEQ ID No: 177 >Lettuce_LsF5H_2_1 CDS Mutation 4 ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGGAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTTTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGGAT CTGGACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA SEQ ID No: 178 >Lettuce_LsF5H_2_1 CDS Mutation 5 ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGGAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGAAT CTGGACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA SEQ ID No: 179 >Lettuce_LsF5H_2_1 CDS Mutation 6 ATGGATCCTAAGTCCATCTTACTTTACGTTGTACTCCCTCTCTTAACCTTCT TCCTTCTCTCCCGATTACGCCGAAAACCTCTTCCGCCTGGTCCAAGAGGGTGGCCGC TGATCGGTAACATGTTAATGATGGACCAACTCACCCACCGTGGCCTTGCTCGTTTGG GAGAAAAATACGGTGGTCTTCTTCATCTGAAGATGGGTTTCAGCCATACCGTCGCTG TCTCGTCCCCCGAAATAGCCAGGCAAGTACTCCAAGTTCAAGACAACATCTTCGCCA ACCGCCCGGCCACCATCGCCATTAGTTACCTCACCTACGACCGGCAAGACATGGCGT TCGCCAACTACGGTCCCTTTTGGCGTCAGATGCGTAAGCTTTGCGTCATGAAGCTGT TCAGCAGAAAGCGAGCTGAGTCTTGGGACTCCGTCAGAGACGAAGTTGTCTCCATG GTCAAAATCACCGCTGCAAGCTCCGGCACCGCTGTTAACCTTGGAGAGCTTGTTTTC GGGTTAACCCATGATATCATTTACCGAGCAGCTTTCGGGTCTATCTCTCATGAAGGA AAAGAAGAATTCATCAGAATTCTACAAGAATACACAAAGCTTTTTGGTGCTTTCAAT TTGGCAGATTTTGTCCCGTGGCTTGGATTTATCGACCCTGCCGGACTGAATACCCGTT TACCGAAGGCCAGGGCGGCGCTTGACAGATTCATTGATAAAATCATCGACGAGCAC CTTGCAAAAGAGAGGAAAACGGGCGATGAGGAAGATAATGATATGGTGGATGAGA TGTTGGCTTTTTACAGTGAAGAAGGAAAGGTAAACGAAGGCGAGGATTTGCAGAAC GCGATTAGACTCACCCGAAACAATATCAAAGCCATTATTATGGATGTAATGTTTGGT GGGACTGAAACTGTTGCTTCTGCTATCGAATGGGCTTTAACTGAGCTAATGCACACC CCAGAATCCTTAAAACGTGCACAACAAGAGCTCGCTGATGTTGTTGGCCTTGATCGT CGTGTAGAAGAATCAGATTTCGAGAAGCTAACTTACTTCAAATGTGTCATCAAAGAA ACCTTACGTCTCCACCCTCCGATCCCTGTCCTTTTGCACCAATCATCAGAAGCCACGT CGGTTGCTGGCTACCACATACCTAAAGGGACACGTGTCATGGTTAACGCATTCGCCA TTAATCGTGATAAGAACTCATGGAAGGATCCACACACGTTCAACCCATCACGTTTCT TGCAAGATGGGGCACCCGACTTTAAAGGAAGCAATTATGAGTTTCTTCCATTTGGAT CTGAACGTAGATCATGTCCTGGAATGCAACTTGGATTGTACGCAATGGAGATGGCA GTGGCTCACCTTCTTCATTCATTCACATGGCAGTTGCCTGATGGAATGAAACCAAGT GAGATTGACATGAATGATGTGTTTGGACTCACTGCACCAAAAGCGATTCGACTTGTT GCTGTGCCAACTCCTCGGTTGTTGTGTCCGCTGTATTGA

Although the present invention and its advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined in the appended claims.

The present invention will be further illustrated in the following Examples which are given for illustration purposes only and are not intended to limit the invention in any way.

EXAMPLES Example 1: Creation of a Lactuca sativa Plant Mutant by Treatment with EMS

In order to create Lactuca sativa plant mutants, approximately 2000 seeds of the lettuce varieties Troubadour, Apache, Yorvik and Roderick were treated with EMS by submergence of the seeds in an aerated solution of either 0.05% (w/v) or 0.07% (w/v) EMS for 24 hours at room temperature. Following EMS treatment, the M1 seeds were rinsed with water, germinated and grown in a greenhouse at 20° C. at 16 hours light, 8 hours dark regime in order to produce M2 seeds that were harvested and bulked. The resulting population of M2 plants was screened for lettuce plants that showed reduced wound-induced discoloration by using the phenotypic test described in Example 2.

A lettuce plant which was a mutant of the variety Troubadour and did exhibit a reduced wound-induced surface discoloration compared to the WT following 3 to 5 days incubation of a leaf disc sample in the phenotypic test described in Example 2 was selected and crossed with a second lettuce plant from the variety Troubadour. An F6 line, 11K200310, was produced from this cross after repeated cycles of inbreeding in combination with plant and line selection. Selection was performed to maintain the reduced wound-induced surface discoloration and to reduce the effect of undesirable background mutations.

A second round of EMS treatment was then performed on 5000 seeds of the line 11K200310, in the same manner as previously described in the first EMS treatment, but using a concentration of 0.14% EMS instead. EMS treated seeds were then sown in a glasshouse and the resulting population of plants were then screened again for lettuce plants with wound-induced surface discoloration using the phenotypic test as described in Example 2.

Example 2: Phenotypic Identification of a Plant that Show Reduced Wound-Induced Surface Discoloration

Plants from Example 1 that were grown from seeds that were either treated with one round or two rounds of EMS, were screened for their potential to show reduced wound-induced surface discoloration. Leaf disc samples were taken from the plants when these had developed approximately 6 true leaves being of the size to take a sample without cutting the middle vein. For this experiment the plants were at mature stage (approximately 2 months old) grown in a glasshouse. The obtained samples were laid on the filter paper that was moistened with MES buffer. The upper side of the leaf was in contact with the filter paper. The leaves were covered with a second filter paper also moistened with MES buffer. The air bubbles between the two filter papers were removed and the leaf discs were incubated between the wetted filter papers in a container at 7.5° C. After three, five and ten days of incubation of the leaf samples the wound-induced surface discoloration was scored by one person for the presence and intensity of wound-induced surface discoloration represented by the pink color around the edges of the leaf samples. An example of a scale used in this phenotypic identification is from 9 to 0, wherein 9 means that the edges of the leaf disc have no discoloration, score 8 means that the leaf disc has a very slight pink discoloration around the edges, score 5 means that the leaf disc has a thin ring of red/pink discoloration around the edges, score 2 means that the leaf disc has a darker and thicker ring of red/pink discoloration around the edges as compared to a leaf disc having score 9, 8, 7, 6, 5, 4 or 3 and score 0 means that the leaf disc has a very dark red and thick ring of discoloration around the edges. While different scales can be used to evaluate the intensity of wound-induced surface discoloration, the scale should range from no wound-induced surface discoloration to the highest intensity of wound-induced surface discoloration. The most interesting candidates were grown for seeds and resown and retested according to the same protocol.

Reduced wound-induced discoloration was confirmed for some candidates. The results of the phenotypic test for wound-induced surface discoloration on the leaf discs at days 3, 7 and 10 after sampling are shown in FIGS. 1, 2 and 3 and the scores are represented in Table 4; At day 3 (FIG. 1) the WT showed wound-induced surface discoloration (score 0), the plants comprising mutation 1 showed a reduced wound-induced surface discoloration (score 7) as compared to the wound-induced surface discoloration of the wild type plants and plants comprising mutation 1 and mutation 2, 3, 4, 5 or 6 did not show any wound-induced surface discoloration (score 9). At day 5 (FIG. 2) the WT showed wound-induced surface discoloration (score 0), the plants that were treated one time with EMS and had mutation 1 in their F5H1 gene homolog (Table 3) showed a reduced wound-induced surface discoloration (score 2) as compared to the WT (score 0) and plants that have been treated two rounds of EMS and had a mutation 1 in their F5H1 gene homolog (Table 3) and mutation 2, 3, 4, 5 or 6 in their F5H2 gene homolog (Table 3) did not show any wound-induced surface discoloration or a reduced wound-induced surface discoloration as compared to the plants comprising mutation 1 (scores 7 to 9). At day 10 (FIG. 3) the plants that were treated one time with EMS and had mutation 1 in their F5H1 gene homolog showed a wound-induced surface discoloration (score 0) and plants that have been treated two rounds of EMS and had a mutation 1 in their F5H1 gene homolog (Table 3) and mutation 2, 3, 4, 5 or 6 in their F5H2 gene homolog (Table 3) did not show any wound-induced surface discoloration or a reduced wound-induced surface discoloration as compared to a plant comprising mutation 1 (scores 5 to 9).

Those plants were selfed in order to produce seeds, which were then deposited with the NCIMB under accession numbers accession numbers NCIMB 42546, NCIMB 42547, NCIMB 42548, NCIMB 42549, NCIMB 42550 and NCIMB 42551.

TABLE 4 Scores of the leaf discs for phenotypic identification of a plant that show reduced wound-induced surface discoloration by at 3, 4, 5, 6, 7 and 10 days after sampling the leaf discs 3 4 5 6 7 10 Line Plant days days days days days days 1 Wild type 0 0 0 0 0 0 2 Mutation 1 7 5 2 0 0 0 3 Mutation 1 + 9 9 8 7 7 5 Mutation 2 4 Mutation 1 + 9 9 9 9 9 9 Mutation 3 5 Mutation 1 + 9 9 7 7 5 5 Mutation 4 6 Mutation 1 + 9 9 9 9 9 9 Mutation 5 7 Mutation 1 + 9 9 9 9 9 9 Mutation 6 8 Wild type 0 0 0 0 0 0 9 Mutation 1 7 5 2 0 0 0

Example 3. Modifications of the Lactuca sativa F5H Homologs

The DNA of the Lactuca sativa plants resulting from the treatment with EMS and showing reduced wound-induced surface discoloration was analyzed to identify mutations in the F5H gene homologs by using standard DNA sequencing techniques. A number of mutations in the gene homologs F5H1 and F5H2 of the Lactuca sativa plant were identified.

The mutation in lettuce F5H gene homolog on chromosome 4, herein referred to as F5H1, resulted in a premature stop codon in the sequence of the corresponding wild type protein represented in SEQ ID No: 1. The different mutations in lettuce F5H gene on chromosome 3, herein referred to as F5H2 resulted in amino acid changes in the sequence of the corresponding wild type proteins represented in SEQ ID No: 2. The presence of the modified F5H1 protein in a Lactuca sativa plant results in reduced wound-induced surface discoloration. The presence of the modified F5H1 and F5H2 proteins in a Lactuca sativa plant enhances this effect. The mutations listed in the following Table 5 and Table 6 were identified in the F5H gene homologs of the Lactuca sativa plant. The tables show only parts of the F5H1 and F5H2 sequences comprising the mutated nucleotide (SNP) and 50 flanking nucleotides on either side.

TABLE 5 Sequence data of SNP mutations in the F5H1 gene homolog of Lactuca sativa. Designa- tion WT Sequence WT CTTACAACGGCGTAGATTTGGCTTTTGCTAATT SEQ ID ATGGACCTTTCTGGCGA C AAATGCGAAAGCTT No: TGTGTCATGAAGCTGTTCAGCCGGAAACGAGC 143 GGAG SNP Designa- Posi- tion SNP Sequence tion 1 CTTACAACGGCGTAGATTTGGCTTTTGCTAATT F5H1 SEQ ID ATGGACCTTTCTGGCGA T AAATGCGAAAGCTT Chr.4 No: TGTGTCATGAAGCTGTTCAGCCGGAAACGAGC 370 bp 117 GGAG

TABLE 6 Sequence data of SNP mutations in the F5H2 gene homolog of Lactuca sativa Desig- SNP nation Position WT Sequence WT TGAGTCTTGGGACTCCGTCAGAGACGAAGTTG SEQ ID TCTCCATGGTCAAAATCA C CGCTGCAAGCTCC No: 150 GGCACCGCTGTTAACCTTGGAGAGCTTGTTTT CGGGT SNP Sequence  8 TGAGTCTTGGGACTCCGTCAGAGACGAAGTTG F5H2 SEQ ID TCTCCATGGTCAAAATCA T CGCTGCAAGCTCC Chr. 3 No: 124 GGCACCGCTGTTAACCTTGGAGAGCTTGTTTT  461 bp CGGGT WT Sequence WT CTCCATGGTCAAAATCACCGCTGCAAGCTCCG SEQ ID GCACCGCTGTTAACCTTG G AGAGCTTGTTTTC No: 151 GGGTTAACCCATGATATCATTTACCGAGCAGC TTTCG SNP Sequence  9 CTCCATGGTCAAAATCACCGCTGCAAGCTCCG F5H2 SEQ ID GCACCGCTGTTAACCTTG A AGAGCTTGTTTTC Chr.3 No: 125 GGGTTAACCCATGATATCATTTACCGAGCAGC  494 bp TTTCG WT Sequence WT CAAAGCCATTATTATGGATGTAATGTTTGGTG SEQ ID GGACTGAAACTGTTGCTT C TGCTATCGAATGG No: 152 GCTTTAACTGAGCTAATGCACACCCCAGAATC CTTAA SNP Sequence 10 CAAAGCCATTATTATGGATGTAATGTTTGGTG F5H2 SEQ ID GGACTGAAACTGTTGCTT T TGCTATCGAATGG Chr.3 No: 126 GCTTTAACTGAGCTAATGCACACCCCAGAATC  923 bp CTTAA WT Sequence WT AGATGGGGCACCCGACTTTAAAGGAAGCAATT SEQ ID ATGAGTTTCTTCCATTTG G ATCTGGACGTAGA No: 153 TCATGTCCTGGAATGCAACTTGGATTGTACGC AATGG SNP Sequence 11 AGATGGGGCACCCGACTTTAAAGGAAGCAATT F5H2 SEQ ID ATGAGTTTCTTCCATTTG A ATCTGGACGTAGA Chr.3 No: 127 TCATGTCCTGGAATGCAACTTGGATTGTACGC 1301 bp AATGG WT Sequence WT GGCACCCGACTTTAAAGGAAGCAATTATGAGT SEQ ID TTCTTCCATTTGGATCTG G ACGTAGATCATGT No: 154 CCTGGAATGCAACTTGGATTGTACGCAATGGA GATGG SNP Sequence 12 GGCACCCGACTTTAAAGGAAGCAATTATGAGT F5H2 SEQ ID TTCTTCCATTTGGATCTG A ACGTAGATCATGT Chr.3 No: 128 CCTGGAATGCAACTTGGATTGTACGCAATGGA 1307 bp GATGG

Example 4. Identification of F5H Gene Orthologs and Conserved Regions

The DNA of the Lactuca sativa plants resulting from the treatment with EMS and showing reduced wound-induced surface discoloration was analyzed to identify mutations in the F5H gene homologs by using standard DNA sequencing techniques. A number of mutations in the gene homologs F5H1 and F5H2 of the Lactuca sativa plant were identified.

F5H gene orthologs in others crop species were identified by using a BLASTN and BLASTP program in order to compare the DNA and the protein sequences of F5H1 and F5H2 of the Lactuca sativa plant with the sequences of other crops species. The best hits per species were identified as candidate F5H1 and F5H2 gene orthologs. A non-limitative list of plants that carry one or more F5H gene orthologs are represented in the following table.

TABLE 7 List of plant species that carry a F5H gene ortholog and number of gene orthologs present in the genome of these plants. The SEQ ID numbers of the F5H gene ortholog sequences are listed in Table 2. Number of F5H Plant crops gene orthologs Potato (Solanum tuberosum) 1 Onion (Allium cepa) 1 Artichocke (Cynara cardunculus var. Scolymus) 2 Rice (Oryza sativa) 2 Corn (Zea mays) 2 Peach (Prunus persica) 2 Eggplant (Solanum melongena) 2 Chicory (Cichorium intybus) 3 Endive (Cichorium endivia) 3 Celery and celeriac (Apium graveolens) 3 Apple (Malus domestica) 3 Banana (Musa acuminata) 4 Soy (Glycine max) 5 Pear (Pyrus x bretschneideri) 5 Wheat (Triticum aestivum) 5 Radish (Raphanus sativus) 5 Cabbage and cauliflower (Brassica oleracea) 5

The alignments revealed the presence of highly conserved amino acids amongst the F5H gene orthologs of different species. Examples of highly conserved amino acid regions highlighted within the sequences of F5H gene orthologs in the protein sequence alignment FIG. 4 are listed in Table 1.

Example 5: Development of New Plants Having the Trait of the Invention

A lettuce plant numbered 15E238260 showing reduced wound-induced discoloration after 10 days of incubation and found by the phenotypic test described in Example 2 was selfed. By use of DNA-marker tests based on SNPs markers in Example 3 plant 15E238260 was shown to be homozygous for the mutation in the F5H1 gene homolog and a mutation in the F5H2 gene homolog. Flowers of plant 15E238260 were used as a pollen donor to make a cross with a plant of the lettuce variety Hofnar that showed wound-induced surface discoloration in the phenotypic test described in Example 2 just like the wild type plant. The above-mentioned cross result in an F1-seed lot numbered 15E97481.

Four F1-seeds were sown and the resulting plants numbered 15E748101, 15E748102, 15E748103, and 15E748104, were selfed to produce F2-seeds. These F2-seeds are sown and the individual F2-plants were tested for reduced wound-induced surface discoloration by the phenotypic test described in Example 2. Three out of each sixteen F2-plants were expected to show reduced wound-induced surface discoloration after 3 to 5 days and one out of each sixteen F2-plants was expected to show reduced wound-induced surface discoloration ten days of incubation of the leaf discs at 7.5° C. as described in Example 2.

The F2 plants that showed a reduced wound-induced surface discoloration after 10 days of incubation were therefore expected to be homozygous for the mutation in the F5H1 gene homolog as well as for a mutation in the F5H2 gene homolog. The selected F2-plant was selfed to produce F3-seeds. By growing ten F3-plants out of this seed lot and observing a reduced wound-induced surface discoloration for each of them after ten days of incubation (as in Example 2), the homozygous presence of the two mutated genes in the selected F2-plant was confirmed. The selection of the plant and the confirmation of the selected genotype was done by using a molecular marker recognizing the difference between the wild type and the mutant genes.

Example 6: Introgression of the Trait of the Invention by Backcrossing

To introgress both the mutation of the F5H1 gene homolog and the mutation of the F5H2 gene homolog in the lettuce variety Hofnar a backcross with variety Hofnar as recurrent parent is performed. For this purpose, the selected F2-plant showing a reduced wound-induced surface discoloration after ten days of incubation by using the phenotypic test as described in Example 2 was used as a parent in a cross with Hofnar. The resulting BC1-seed was sown and a BC1-plant was used as a parent in a cross with Hofnar to generate BC2-seeds. 20 BC2-seeds were sown and each of them was selfed to generate BC2.S1-seeds. These 20 BC2.S1-seed lots (i.e. BC2.S1families) were sown, 20 BC2.S1 plants per seed lot, to select a BC2.S1-family, which was segregating for both the mutation of the F5H1 gene homolog and the mutation of the F5H2 gene homolog. For this purpose, each of the 20 plants per BC2.S1-family was tested with the phenotypic test as described in Example 2 with an incubation time of ten days. After these ten days a BC2.S1-family is selected which showed segregation for the reduced wound-induced discoloration phenotype. From such a family a BC2.S1-plant with the reduced wound-induced surface discoloration phenotype was selected and used as a parent in a BC3-cross with Hofnar. This BC2.S1-plant was also selfed to produce BC2.S2-seeds. Ten BC2.S2-seeds were grown into plants and tested in the phenotypic test as described in Example 2, to confirm the reduced wound-induced discoloration in all of them, after 10 days, they indeed show no or reduced wound-induce discoloration in the phenotypic test. This confirmed the homozygous presence of the mutation in F5H1 gene homolog as well as the homozygous presence of the mutation in F5H2 gene homolog. The selection of the plant and the confirmation of the selected genotype could have also been done by using a molecular marker recognizing the difference between the wild type and the mutant genes.

The resulting BC3-seed was sown and a BC3-plant was used as a parent in a cross with Hofnar to generate BC4-seeds. 20 BC4-seeds were sown and each of them was selfed to generate BC4.S1-seeds. These 20 BC4.S1-seed lots (i.e. BC4.S1families) were sown, 20 BC4.S1 plants per seed lot, to select a BC4.S1-family, which was segregating for both the mutation of the F5H1 gene homolog and the mutation of the F5H2 gene homolog. For this purpose, each of the 20 plants per BC4.S1-family was tested with the wound-induced discoloration test as described in Example 2 with an incubation time of ten days. After these ten days a BC4.S1-family was selected which showed segregation for the reduced wound-induced surface discoloration phenotype. From such a family a BC4.S1-plant with the reduced wound-induced surface discoloration phenotype was selected and could be used as a parent in a BC5-cross with Hofnar. This BC4.S1-plant was also selfed to produce BC4. S2-seeds, of which ten seeds were sown to confirm the reduced wound-induced surface discoloration in all of them. The selection of the plant and the confirmation of the selected genotype could also be done by using a molecular marker recognizing the difference between the wild type and the mutant genes, e.g. markers based on the SNPs as described in Example 3. The genotype of each selected plant could also be confirmed by using molecular markers.

The BC4.S2-seeds were sown in a trial and the resulting plants are compared with plants of the variety Hofnar grown in the same trial. In this way it is established whether the BC4-generation is sufficiently similar to Hofnar to be used by growers in practice.

Example 7: Segregation Analysis of the Trait of the Invention

A lettuce plant numbered 15E238260 showing reduced wound-induced discoloration and comprising mutation 1 (C₃₇₀>T₃₇₀ in the F5H1 gene homolog) and mutation 3 (G₄₉₄>A₄₉₄ in the F5H2 gene homolog) in a homozygous state was used for the segregation analysis. Flowers of plant 15E238260 were used as a pollen donor to make a cross with a plant of the lettuce variety Troubadour that showed wound-induced surface discoloration in the phenotypic test described in Example 2 just like the wild type plant in order to obtain F1-seeds.

The F1 plants grown from the F1 seeds were sown and selfed to produce F2-seeds. The plants grown from the F2 seeds were used to analyze the segregation of the trait of the invention.

The mutations were homozygously absent, heterozygously present or homozygously present in a plant. The different genotypes and their denomination in this application are represented in Table 8. The reduced wound-induced surface discoloration was evaluated by using the leaf disc test as described in Example 2, but for the segregation analysis, the leaf discs were taken from young plants (approximately 2 weeks old). The score for each leaf disc is represented in Table 9 and as an example the leafs discs of a lettuce plant comprising mutation 1 and mutation 3 are represented in FIG. 6.

TABLE 8 Representation of the genotype of the plants used for the segregation analysis represented in FIG. 6 Mutation 1 Mutation 3 Genotype Homozygously absent Homozygously absent AA/AA Heterozygously present Homozygously absent AB/AA Homozygously absent Heterozygously present AA/AB Heterozygously present Heterozygously present AB/AB Homozygously present Heterozygously present BB/AB Heterozygously present Homozygously present AB/BB Homozygously absent Homozygously present AA/BB Homozygously present Homozygously absent BB/AA Homozygously present Homozygously present BB/BB

TABLE 9 Phenotypic analysis of the F2 population of plants comprising mutation 1 and mutation 3 The genotypes of the plants are represented in Table 8: Genotype Phenotype (Scores) Mutation 1 Mutation 3 1 Day 2 Days 3Days 4 Days AA AA 9 2 0 0   AB AA 9 2 1 0   AA AB 9 2 1 0.5 AB AB 9 2 1 0   AB BB 9 2 0 0   AA BB 9 1 1 0   BB AA 9 8 8 7   BB BB 9 9 9 9   BB AB 9 9 9 8  

The results in Table 9 show that in order to show reduced wound-induced surface discoloration the plant needed to carry mutation 1 on the F5H1 gene homolog (C₃₇₀>T₃₇₀ in the F5H1 gene homolog). Preferably the plant carried mutation 1 homozygously. A plant that carried mutation 1 homozygously (BB) and mutation 3 heterozygously (AB) or homozygously (BB) showed a reduced wound-induced surface discoloration as compared to the wild-type (AA/AA) and to plants that carried only mutation 1. The most reduced wound-induced surface discoloration was visible in a plant comprising mutation 1 in the F5H1 gene homozygously and mutation 3 in F5H2 gene homozygously (BB/BB).

Example 8: Phenotypic Analysis of Whole Lettuce Heads

The lettuce plants were harvested at maturity stage (approximately 3 months old), preferably the plants in the middle of the plot were chosen for the phenotypic analysis. The harvested plants were stored in a cooling room at 5° C. over night in boxes that were wrapped in plastic to avoid drying out. The plants were then cut under cold temperature (around 15° C.). Old leaves, leaves showing tipburn symptoms and outer leaves were removed from the heads. Two or three plant heads comprising mutation 1, mutation 1 and mutation 2, mutation 1 and mutation 3, mutation 1 and mutation 4, mutation 1 and mutation 5, mutation 1 and mutation 6 and a wild type plant (Troubadour) were vertically cut in four parts to remove the core and the four parts were further cut 2 or 3 times horizontally. For the phenotypic analysis 100 grams of the cut lettuce leaves were washed with a washing machine (Washing step with air bubbles: 3 min, time of centrifuge: 2.5 min with the highest speed) and the water was replaced after each washing step. For washing on a small scale, water should be as cold as possible and the washing should be done in a large sink. The cut and washed leaves were dried in a salad spinner.

The cut leaves were filled in dry plastic bags without ethylene that were folded 2 times and stored in boxes and stored at 5-6° C. The bags were not stocked on top of each other.

An example of the phenotypic analysis on whole lettuce heads is shown in FIG. 7 for the wild type lettuce variety Troubadour (wild type) that does not comprise a modified F5H gene homolog, a lettuce plant comprising mutation 1 (C₃₇₀>T₃₇₀ in the F5H1 gene homolog) (“Mutation 1”) and a lettuce plant comprising mutation 1 and mutation 3 (G₄₉₄>A₄₉₄ in the F5H2 gene homolog) (“Mutation 1 and mutation 3”). The pictures were taken after 7 and 10 days after after washing. The wild type plant showed wound-induced surface discoloration and the cutting edges after 7 days, the plant comprising mutation 1 showed a reduced wound-induced surface discoloration at the cutting edges after 7 or 10 days as compared to the wild type, the plant comprising mutation 1 and mutation 3 do not show any wound-induced surface discoloration even after 10 days and has therefore a reduced wound-induced surface discoloration as compared to plants comprising mutation 1.

Another analysis has been performed with an evaluation of the wound-induced surface discoloration at 3, 7 and 14 days after washing. The results are represented in Table 10. A plant that may comprise mutation 1 showed reduced wound-induced surface discoloration as compared to the wild type. Plants that comprise mutation 1 and mutation 3, 4, 5 or 6 showed reduced wound-induced surface discoloration as compared to the wild-type and the plant comprising mutation 1. Plants comprising mutation 1 and mutation 2 showed the same reduction in wound induced surface discoloration as a plant comprising mutation 1 at 14 days, but the wound-induced surface discoloration develops slower than in a plant comprising mutation 1 as at 7 Days a plant comprising mutation 1 has a score of 7 and a plant comprising mutation 1 and mutation 2 scores 8.

TABLE 10 Phenotypic analysis of whole lettuce heads after cutting the heads, washing the leaves and storing the leaves for 3, 7 and 9 or 14 days at 5-6° C.: Days of storage Plant type 3 Days 7 Days 14 Days Wild type 9 5   4   Mutation 1 9 7   5   Mutation 1 + mutation 2 9 8   5   Mutation 1 + mutation 3 9 9   7.5 Mutation 1 + mutation 4 9 8   6.5 Mutation 1 + mutation 5 9 8.5 6   Mutation 1 + mutation 6 9 8   7  

The invention is further described by the following numbered paragraphs:

1. A plant comprising a modified F5H gene homolog, wherein said gene homolog comprises a modification as compared to its corresponding wild type F5H gene homolog, wherein the presence of the modified F5H gene homolog in the plant leads to a reduction of wound-induced surface discoloration in comparison to a plant not comprising the modified F5H gene homolog.

2. Plant of paragraph 1, wherein the wild type F5H gene sequence is represented by any one of SEQ ID Nos: 58 to 114.

3. Plant of any of the paragraphs 1-2, wherein the plant is selected from the group consisting of Solanum tuberosum, Allium cepa, Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

4. Plant of any one of the paragraphs 1-2, wherein the plant comprises two modified F5H gene homologs.

5. Plant of paragraph 4, wherein the plant is selected from the group consisting of Lactuca sativa, Cynara cardunculus var. Scolymus, Oryza sativa Japonica, Zea mays, Prunus persica, Solanum melongena, Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

6. Plant of any one of the paragraphs 1-2, wherein the plant comprises three modified F5H gene homologs.

7. Plant of paragraph 6, wherein the plant is selected from the group consisting of Cichorium intybus, Cichorium endivia, Apium graveolens, Malus domestica, Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

8. Plant of any one of the paragraphs 1-2, wherein the plant comprises four modified F5H gene homologs.

9. Plant of paragraph 8, wherein the plant is selected from the group consisting of Musa acuminate, Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

10. Plant of any one of the paragraphs 1-2, wherein the plant comprises five or more modified F5H gene homologs.

11. Plant of paragraph 10, wherein the plant is selected from the group consisting of Glycine max, Pyrus×bretschneideri, Triticum aestivum, Raphanus sativus and Brassica oleracea, the wild type F5H gene sequence SEQ ID numbers of which are listed in Table 2.

12. Plant of any one of the paragraphs 1-11, wherein the modification leads to a reduction or absence of the protein expression of the F5H1 protein homolog as compared to the expression of the protein produced by the corresponding wild type F5H1 gene homolog.

13. Plant of any one of the paragraphs 1-12, wherein the modification leads to a reduction or absence of the protein activity of the F5H1 protein homolog as compared to the activity of the protein produced by the corresponding wild type F5H1 gene homolog.

14. Plant of any one of the paragraphs 1-13, wherein the modification leads to a premature stop codon.

15. Plant of any one of the paragraphs 1-5 and 12-14, wherein the plant is a Lactuca sativa plant and comprises a first modified F5H gene homolog called F5H1, the wild type of which has SEQ ID No. 115, and optionally a second modified F5H gene homolog called F5H2, the wild type of which has SEQ ID No. 116.

16. Plant of paragraph 15, wherein the modified F5H1 gene homolog is homozygously present and the modified F5H2 gene homolog is either heterozygously or homozygously present.

17. Plant as paragraphed any one of the paragraphs 15-16, wherein the modified F5H1 gene comprises a premature stop codon.

18. Plant of paragraph 17, wherein the plant is a Lactuca sativa plant and the premature stop codon is caused by a mutation C>T at position 370 of SEQ ID No: 115.

19. Plant according to paragraph 17, wherein the plant is another plant listed in FIG. 4 and the premature stop codon is caused by a mutation at a position that corresponds to position 370 of SEQ ID No: 115 in Lactuca sativa.

20. Plant of any one of the paragraphs 15-19, wherein the modified F5H2 gene encodes a protein having one or more amino acid substitutions.

21. Plant of any one of the paragraphs 15-20, wherein the plant is a Lactuca sativa plant and the modified F5H2 gene comprises a mutation resulting in an amino acid substitution of Threonine to Isoleucine at position 154 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Serine to Phenylalanine at position 308 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded F5H2 protein of SEQ ID No: 2, and/or an amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded F5H2 protein of SEQ ID No: 2.

22. Plant of paragraph 21, wherein the amino acid substitution of Threonine to Isoleucine at position 154 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 461 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 494 of SEQ ID No: 116, the amino acid substitution of Serine to Phenylalanine at position 308 of the encoded F5H2 protein is the result of a nucleotide change C>T at position 923 of SEQ ID No: 116, the amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1301 of SEQ ID No: 116 and the amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded F5H2 protein is the result of a nucleotide change G>A at position 1307 of SEQ ID No: 116.

23. Plants according to paragraph 20 or 22, wherein the plant is another plant listed in FIG. 4 and the amino acid substitution is at a position that corresponds to the position in Lactuca sativa.

24. Part of a plant of any one of the paragraphs 1-23, wherein the part is a leaf, a whole head of a plant, a fruit, an inflorescence, a seed, a curd, a stem, a tuber, a bulb or a root, optionally in processed form.

25. A food product comprising a part of a plant of paragraph 24.

26. A seed capable of developing into a plant of any one of the paragraphs 1-23.

27. Seed of a plant of any one of the paragraphs 1-23, wherein the seed comprises a modified F5H gene homolog in its genome.

28. Propagation material capable of developing into and/or derived from a plant of any one of the paragraphs 1-23, wherein the propagation material is selected from the group consisting of a microspore, pollen, ovary, ovule, embryo, embryo sac, egg cell, cutting, root, root tip, hypocotyl, cotyledon, stem, leaf, flower, anther, seed, meristematic cell, protoplast and a cell, or a tissue culture thereof.

29. A modified F5H gene homolog as defined in any one of the paragraphs 1-23 that confers reduced wound-induced surface discoloration to the plant.

30. Use of a modified F5H gene homolog as defined in any one of the paragraphs 1-23 for the development of a plant exhibiting reduced wound-induced surface discoloration.

31. A plant of any of the paragraphs 1-23, wherein reduction of the endogenous level of the F5H1 protein is due to a premature stop codon in the wild-type F5H sequences listed in Table 2.

32. Method for producing a plant exhibiting reduced wound-induced surface discoloration, comprising reducing the endogenous level of F5H1 protein in the plant.

33. Method of paragraph 32, wherein the endogenous level of F5H1 protein in the plant is reduced by mutating a wild type F5H1 gene homolog.

34. The method of paragraphs 32 or 33, wherein the mutation is effected by CRISPR, by a chemical agent, radiation, or a combination thereof.

35. The method of paragraph 32 wherein reducing the endogenous level of F5H1 protein in the plant is accomplished by reducing the expression of a F5H1 gene homolog of the plant by gene silencing or RNAi.

36. The method of any one of the paragraphs 32-35, wherein the wild type F5H1 gene homolog or homologs have the nucleotide sequence and corresponding amino acid sequence of which the SEQ ID numbers are listed in Table 2.

37. A plant comprising a reduced F5H1 expression, wherein the reduction is caused by one of the methods of paragraphs 32-36.

38. A method for selecting a plant showing reduced wound-induced surface discoloration, wherein the method comprises screening a plant or a population of plants for the presence of a modified F5H gene homolog as described in any one of the paragraphs 1-23, optionally applying a phenotypic test to identify plants showing reduced wound-induced surface discoloration, and selecting a plant showing reduced wound-induced surface discoloration.

39. A molecular marker for detecting in the genome of a plant a mutation causative of reduced wound-induced surface discoloration in said plant or a part thereof, wherein the marker is a mutation in any of the F5H wild type sequences, the SEQ ID numbers of which wild type sequences are shown in Table 2.

40. Molecular marker of paragraph 39, wherein the mutation is a nucleotide change of C>T at position 370 of SEQ ID No: 115.

41. Molecular marker of paragraph 39, wherein the mutation is an amino acid substitution of Threonine to Isoleucine at position 154 of the encoded protein as a result of a change C>T at position 461 of SEQ ID No: 116, and/or an amino acid substitution of Glycine to Glutamic acid at position 165 of the encoded protein as a result of a change G>A at position 494 of SEQ ID No: 116 and/or an amino acid substitution of Serine to Phenylalanine at position 308 of the encoded protein as a result of a change C>T at position 923 of SEQ ID No: 116, and/or an amino acid substitution of Glycine to Glutamic acid at position 434 of the encoded protein as a result of a change G>A at position 1301 of SEQ ID No: 116, and/or an amino acid substitution of Glycine to Glutamic acid at position 436 of the encoded protein as a result of a change G>A at position 1307 of SEQ ID No: 116.

42. Use of a molecular marker of any of the paragraphs 39-41, to identify or develop a plant showing reduced wound-induced surface discoloration, or develop other markers linked to a modified F5H gene homolog as defined in any of the paragraphs 1-23.

43. A method for identifying molecular markers linked to reduced wound-induced surface discoloration of a plant, comprising:

a) isolating DNA from a plant and from one or both parents of said plant;

b) screening for molecular markers in a region of said DNA at or near a sequence corresponding to SEQ ID Nos: 175, 176, 177, 178 or 179.

c) determining co-inheritance of said markers with the reduced wound-induced surface discoloration phenotype from one or both parents of said plant.

44. A method for producing a plant showing reduced wound-induced surface discoloration comprising:

(a) crossing a plant comprising a modified F5H gene homolog of paragraph 1, with another plant;

(b) optionally performing one or more rounds of selfing and/or crossing; and

(c) optionally selecting after each round of selfing or crossing for a plant that comprises said reduced wound-induced surface discoloration.

45. Method of paragraph 44, wherein the plant is phenotypically selected and/or selected by use of molecular markers.

46. A method of producing a hybrid plant seed comprising crossing a first parent plant with a second parent plant and harvesting the resultant plant seed, wherein said first parent plant and/or said second parent plant comprises a modified F5H gene homolog as defined in paragraph 1.

47. A method of determining the presence of a modified F5H gene homolog in a plant according to paragraph 1, comprising the steps of obtaining a sample of nucleic acids from said plant, comparing said nucleic acids to a sample of nucleic acids obtained from a reference plant comprising the wild type F5H gene homolog, and detecting a polymorphism between the two nucleic acid samples, wherein the detected polymorphism is indicative of the presence of said modified F5H gene homolog.

48. Method of paragraph 47, wherein the wild type F5H gene homolog is any one of the sequences of which the SEQ ID numbers are listed in Table 2.

Having thus described in detail preferred embodiments of the present invention, it is to be understood that the invention defined by the above paragraphs is not to be limited to particular details set forth in the above description as many apparent variations thereof are possible without departing from the spirit or scope of the present invention. 

What is claimed is:
 1. A non-naturally occurring Lactuca sativa plant comprising homozygously a modified ferulate 5 hydroxylase 1 gene (F5H1) and a modified ferulate 5 hydroxylase 2 gene (F5H2), wherein the modified F5H1 comprises a C>T mutation at position 370 with reference to SEQ ID NO: 115, or the modified F5H1 when expressed results in a modified ferulate 5 hydroxylase 1 that terminates at position 124, with reference to SEQ ID NO: 1, and the modified F5H2 comprises: a C>T mutation at position 461, a G>A mutation at position 494, a C>T mutation at position 923, a G>A mutation at position 1301, or a G>A mutation at position 1307, with reference to SEQ ID NO: 116, or the modified F5H2 when expressed results in a modified ferulate 5 hydroxylase 2 comprising: a Thr>Ile mutation at position 154, a Gly>Glu mutation at position 165, a Ser>Phe mutation at position 308, a Gly>Glu mutation at position 434, or a Gly>Glu mutation at position 436, with reference to SEQ ID NO: 2, and wherein the non-naturally occurring Lactuca sativa plant exhibits reduced wound-induced discoloration in comparison with a Lactuca sativa plant not having the mutations, and reduced wound-induced discoloration in comparison with a Lactuca sativa plant having only the mutation in F5H1.
 2. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 is homozygously present.
 3. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 comprises the C>T mutation at position 461, or the F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Thr>Ile mutation at position
 154. 4. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 comprises the G>A mutation at position 494, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 165. 5. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 comprises the C>T mutation at position 923, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Ser>Phe mutation at position
 308. 6. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 comprises the G>A mutation at position 1301, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 434. 7. The non-naturally occurring Lactuca sativa plant of claim 1, wherein the modified F5H2 comprises the G>A mutation at position 1307, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 436. 8. A part of the non-naturally occurring Lactuca sativa plant of claim 1 comprising a leaf, a whole head, a stem or a root.
 9. The part of the non-naturally occurring Lactuca sativa plant of claim 8 comprising a leaf or a whole head.
 10. The part of the non-naturally occurring Lactuca sativa plant of claim 9 wherein the leaf or whole head is processed.
 11. A food product comprising the non-naturally occurring Lactuca sativa plant part of claim
 9. 12. A food product comprising the non-naturally occurring Lactuca sativa plant part of claim
 10. 13. A non-naturally occurring Lactuca sativa seed of the non-naturally occurring Lactuca sativa plant of claim 1, comprising homozygously the modified F5H1 and the modified F5H2.
 14. A non-naturally occurring Lactuca sativa seed comprising homozygously a modified ferulate 5 hydroxylase 1 gene (F5H1) and a modified ferulate 5 hydroxylase gene F5H2 wherein the modified F5H1 comprises a C>T mutation at position 370 with reference SEQ ID NO: 115, or the modified F5H1 when expressed results in a modified ferulate 5 hydroxylase 1 that terminates at position 124, with reference to SEQ ID NO: 1, and the modified F5H2 comprises: a C>T mutation at position 461, a G>A mutation at position 494, a C>T mutation at position 923, a G>A mutation at position 1301, or a G>A mutation at position 1307, with reference to SEQ ID NO: 116, or the modified F5H2 when expressed results in a modified ferulate 5 hydroxylase 2 comprising: a Thr>Ile mutation at position 154, a Gly>Glu mutation at position 165, a Ser>Phe mutation at position 308, a Gly>Glu mutation at position 434, or a Gly>Glu mutation at position 436, with reference to SEQ ID NO: 2, and wherein the non-naturally occurring Lactuca sativa seed is capable of growing into a non-naturally occurring Lactuca sativa plant that exhibits reduced wound-induced discoloration in comparison with a Lactuca sativa plant not having the mutations, and reduced wound-induced discoloration in comparison with a Lactuca sativa plant having only the mutation in F5H1.
 15. A propagation material from the non-naturally occurring Lactuca sativa plant of claim 1 comprising a microspore, pollen, ovary, ovule, embryo, embryo sac, egg cell, cutting, root, root tip, hypocotyl, cotyledon, stem, leaf, flower, anther, seed, meristematic cell, protoplast, a cell, or a tissue culture, wherein the propagation material is capable of growing into the plant.
 16. A method of producing non-naturally occurring Lactuca sativa seed comprising crossing a first parent Lactuca sativa plant with a second parent Lactuca sativa plant and harvesting the resultant Lactuca sativa plant seed, wherein said first Lactuca sativa parent plant and/or said second Lactuca sativa parent plant comprises the non-naturally occurring Lactuca sativa plant of claim
 1. 17. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 is homozygously present.
 18. The non-naturally occurring Lactuca sativa plant of claim 1, wherein said plant is grown from seed deposited with NCIMB under accession number NCIMB 42547, or NCIMB 42548, or NCIMB 42549, or NCIMB 42550, or NCIMB
 42551. 19. The non-naturally occurring Lactuca sativa seed of claim 14, wherein said seed has been deposited with NCIMB under accession number NCIMB 42547, or NCIMB 42548, or NCIMB 42549, or NCIMB 42550, or NCIMB
 42551. 20. A progeny plant of the non-naturally occurring Lactuca sativa plant of claim 1, wherein said progeny plant homozygously comprises the F5H1 mutation and comprises the F5H2 mutation.
 21. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 comprises the C>T mutation at position 461, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Thr>Ile mutation at position
 154. 22. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 comprises the G>A mutation at position 494, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 165. 23. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 comprises the C>T mutation at position 923, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Ser>Phe mutation at position
 308. 24. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 comprises the G>A mutation at position 1301, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 434. 25. The non-naturally occurring Lactuca sativa seed of claim 14, wherein the modified F5H2 comprises the G>A mutation at position 1307, or the modified F5H2 when expressed results in the modified ferulate 5 hydroxylase 2 comprising the Gly>Glu mutation at position
 436. 